xref: /freebsd/contrib/llvm-project/clang/lib/Lex/PPDirectives.cpp (revision 5fb307d29b364982acbde82cbf77db3cae486f8c)
1 //===--- PPDirectives.cpp - Directive Handling for Preprocessor -----------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 ///
9 /// \file
10 /// Implements # directive processing for the Preprocessor.
11 ///
12 //===----------------------------------------------------------------------===//
13 
14 #include "clang/Basic/CharInfo.h"
15 #include "clang/Basic/FileManager.h"
16 #include "clang/Basic/IdentifierTable.h"
17 #include "clang/Basic/LangOptions.h"
18 #include "clang/Basic/Module.h"
19 #include "clang/Basic/SourceLocation.h"
20 #include "clang/Basic/SourceManager.h"
21 #include "clang/Basic/TokenKinds.h"
22 #include "clang/Lex/CodeCompletionHandler.h"
23 #include "clang/Lex/HeaderSearch.h"
24 #include "clang/Lex/LexDiagnostic.h"
25 #include "clang/Lex/LiteralSupport.h"
26 #include "clang/Lex/MacroInfo.h"
27 #include "clang/Lex/ModuleLoader.h"
28 #include "clang/Lex/ModuleMap.h"
29 #include "clang/Lex/PPCallbacks.h"
30 #include "clang/Lex/Pragma.h"
31 #include "clang/Lex/Preprocessor.h"
32 #include "clang/Lex/PreprocessorOptions.h"
33 #include "clang/Lex/Token.h"
34 #include "clang/Lex/VariadicMacroSupport.h"
35 #include "llvm/ADT/ArrayRef.h"
36 #include "llvm/ADT/STLExtras.h"
37 #include "llvm/ADT/ScopeExit.h"
38 #include "llvm/ADT/SmallString.h"
39 #include "llvm/ADT/SmallVector.h"
40 #include "llvm/ADT/StringRef.h"
41 #include "llvm/ADT/StringSwitch.h"
42 #include "llvm/Support/AlignOf.h"
43 #include "llvm/Support/ErrorHandling.h"
44 #include "llvm/Support/Path.h"
45 #include "llvm/Support/SaveAndRestore.h"
46 #include <algorithm>
47 #include <cassert>
48 #include <cstring>
49 #include <new>
50 #include <optional>
51 #include <string>
52 #include <utility>
53 
54 using namespace clang;
55 
56 //===----------------------------------------------------------------------===//
57 // Utility Methods for Preprocessor Directive Handling.
58 //===----------------------------------------------------------------------===//
59 
60 MacroInfo *Preprocessor::AllocateMacroInfo(SourceLocation L) {
61   static_assert(std::is_trivially_destructible_v<MacroInfo>, "");
62   return new (BP) MacroInfo(L);
63 }
64 
65 DefMacroDirective *Preprocessor::AllocateDefMacroDirective(MacroInfo *MI,
66                                                            SourceLocation Loc) {
67   return new (BP) DefMacroDirective(MI, Loc);
68 }
69 
70 UndefMacroDirective *
71 Preprocessor::AllocateUndefMacroDirective(SourceLocation UndefLoc) {
72   return new (BP) UndefMacroDirective(UndefLoc);
73 }
74 
75 VisibilityMacroDirective *
76 Preprocessor::AllocateVisibilityMacroDirective(SourceLocation Loc,
77                                                bool isPublic) {
78   return new (BP) VisibilityMacroDirective(Loc, isPublic);
79 }
80 
81 /// Read and discard all tokens remaining on the current line until
82 /// the tok::eod token is found.
83 SourceRange Preprocessor::DiscardUntilEndOfDirective() {
84   Token Tmp;
85   SourceRange Res;
86 
87   LexUnexpandedToken(Tmp);
88   Res.setBegin(Tmp.getLocation());
89   while (Tmp.isNot(tok::eod)) {
90     assert(Tmp.isNot(tok::eof) && "EOF seen while discarding directive tokens");
91     LexUnexpandedToken(Tmp);
92   }
93   Res.setEnd(Tmp.getLocation());
94   return Res;
95 }
96 
97 /// Enumerates possible cases of #define/#undef a reserved identifier.
98 enum MacroDiag {
99   MD_NoWarn,        //> Not a reserved identifier
100   MD_KeywordDef,    //> Macro hides keyword, enabled by default
101   MD_ReservedMacro  //> #define of #undef reserved id, disabled by default
102 };
103 
104 /// Enumerates possible %select values for the pp_err_elif_after_else and
105 /// pp_err_elif_without_if diagnostics.
106 enum PPElifDiag {
107   PED_Elif,
108   PED_Elifdef,
109   PED_Elifndef
110 };
111 
112 static bool isFeatureTestMacro(StringRef MacroName) {
113   // list from:
114   // * https://gcc.gnu.org/onlinedocs/libstdc++/manual/using_macros.html
115   // * https://docs.microsoft.com/en-us/cpp/c-runtime-library/security-features-in-the-crt?view=msvc-160
116   // * man 7 feature_test_macros
117   // The list must be sorted for correct binary search.
118   static constexpr StringRef ReservedMacro[] = {
119       "_ATFILE_SOURCE",
120       "_BSD_SOURCE",
121       "_CRT_NONSTDC_NO_WARNINGS",
122       "_CRT_SECURE_CPP_OVERLOAD_STANDARD_NAMES",
123       "_CRT_SECURE_NO_WARNINGS",
124       "_FILE_OFFSET_BITS",
125       "_FORTIFY_SOURCE",
126       "_GLIBCXX_ASSERTIONS",
127       "_GLIBCXX_CONCEPT_CHECKS",
128       "_GLIBCXX_DEBUG",
129       "_GLIBCXX_DEBUG_PEDANTIC",
130       "_GLIBCXX_PARALLEL",
131       "_GLIBCXX_PARALLEL_ASSERTIONS",
132       "_GLIBCXX_SANITIZE_VECTOR",
133       "_GLIBCXX_USE_CXX11_ABI",
134       "_GLIBCXX_USE_DEPRECATED",
135       "_GNU_SOURCE",
136       "_ISOC11_SOURCE",
137       "_ISOC95_SOURCE",
138       "_ISOC99_SOURCE",
139       "_LARGEFILE64_SOURCE",
140       "_POSIX_C_SOURCE",
141       "_REENTRANT",
142       "_SVID_SOURCE",
143       "_THREAD_SAFE",
144       "_XOPEN_SOURCE",
145       "_XOPEN_SOURCE_EXTENDED",
146       "__STDCPP_WANT_MATH_SPEC_FUNCS__",
147       "__STDC_FORMAT_MACROS",
148   };
149   return std::binary_search(std::begin(ReservedMacro), std::end(ReservedMacro),
150                             MacroName);
151 }
152 
153 static bool isLanguageDefinedBuiltin(const SourceManager &SourceMgr,
154                                      const MacroInfo *MI,
155                                      const StringRef MacroName) {
156   // If this is a macro with special handling (like __LINE__) then it's language
157   // defined.
158   if (MI->isBuiltinMacro())
159     return true;
160   // Builtin macros are defined in the builtin file
161   if (!SourceMgr.isWrittenInBuiltinFile(MI->getDefinitionLoc()))
162     return false;
163   // C defines macros starting with __STDC, and C++ defines macros starting with
164   // __STDCPP
165   if (MacroName.startswith("__STDC"))
166     return true;
167   // C++ defines the __cplusplus macro
168   if (MacroName == "__cplusplus")
169     return true;
170   // C++ defines various feature-test macros starting with __cpp
171   if (MacroName.startswith("__cpp"))
172     return true;
173   // Anything else isn't language-defined
174   return false;
175 }
176 
177 static MacroDiag shouldWarnOnMacroDef(Preprocessor &PP, IdentifierInfo *II) {
178   const LangOptions &Lang = PP.getLangOpts();
179   StringRef Text = II->getName();
180   if (isReservedInAllContexts(II->isReserved(Lang)))
181     return isFeatureTestMacro(Text) ? MD_NoWarn : MD_ReservedMacro;
182   if (II->isKeyword(Lang))
183     return MD_KeywordDef;
184   if (Lang.CPlusPlus11 && (Text.equals("override") || Text.equals("final")))
185     return MD_KeywordDef;
186   return MD_NoWarn;
187 }
188 
189 static MacroDiag shouldWarnOnMacroUndef(Preprocessor &PP, IdentifierInfo *II) {
190   const LangOptions &Lang = PP.getLangOpts();
191   // Do not warn on keyword undef.  It is generally harmless and widely used.
192   if (isReservedInAllContexts(II->isReserved(Lang)))
193     return MD_ReservedMacro;
194   return MD_NoWarn;
195 }
196 
197 // Return true if we want to issue a diagnostic by default if we
198 // encounter this name in a #include with the wrong case. For now,
199 // this includes the standard C and C++ headers, Posix headers,
200 // and Boost headers. Improper case for these #includes is a
201 // potential portability issue.
202 static bool warnByDefaultOnWrongCase(StringRef Include) {
203   // If the first component of the path is "boost", treat this like a standard header
204   // for the purposes of diagnostics.
205   if (::llvm::sys::path::begin(Include)->equals_insensitive("boost"))
206     return true;
207 
208   // "condition_variable" is the longest standard header name at 18 characters.
209   // If the include file name is longer than that, it can't be a standard header.
210   static const size_t MaxStdHeaderNameLen = 18u;
211   if (Include.size() > MaxStdHeaderNameLen)
212     return false;
213 
214   // Lowercase and normalize the search string.
215   SmallString<32> LowerInclude{Include};
216   for (char &Ch : LowerInclude) {
217     // In the ASCII range?
218     if (static_cast<unsigned char>(Ch) > 0x7f)
219       return false; // Can't be a standard header
220     // ASCII lowercase:
221     if (Ch >= 'A' && Ch <= 'Z')
222       Ch += 'a' - 'A';
223     // Normalize path separators for comparison purposes.
224     else if (::llvm::sys::path::is_separator(Ch))
225       Ch = '/';
226   }
227 
228   // The standard C/C++ and Posix headers
229   return llvm::StringSwitch<bool>(LowerInclude)
230     // C library headers
231     .Cases("assert.h", "complex.h", "ctype.h", "errno.h", "fenv.h", true)
232     .Cases("float.h", "inttypes.h", "iso646.h", "limits.h", "locale.h", true)
233     .Cases("math.h", "setjmp.h", "signal.h", "stdalign.h", "stdarg.h", true)
234     .Cases("stdatomic.h", "stdbool.h", "stddef.h", "stdint.h", "stdio.h", true)
235     .Cases("stdlib.h", "stdnoreturn.h", "string.h", "tgmath.h", "threads.h", true)
236     .Cases("time.h", "uchar.h", "wchar.h", "wctype.h", true)
237 
238     // C++ headers for C library facilities
239     .Cases("cassert", "ccomplex", "cctype", "cerrno", "cfenv", true)
240     .Cases("cfloat", "cinttypes", "ciso646", "climits", "clocale", true)
241     .Cases("cmath", "csetjmp", "csignal", "cstdalign", "cstdarg", true)
242     .Cases("cstdbool", "cstddef", "cstdint", "cstdio", "cstdlib", true)
243     .Cases("cstring", "ctgmath", "ctime", "cuchar", "cwchar", true)
244     .Case("cwctype", true)
245 
246     // C++ library headers
247     .Cases("algorithm", "fstream", "list", "regex", "thread", true)
248     .Cases("array", "functional", "locale", "scoped_allocator", "tuple", true)
249     .Cases("atomic", "future", "map", "set", "type_traits", true)
250     .Cases("bitset", "initializer_list", "memory", "shared_mutex", "typeindex", true)
251     .Cases("chrono", "iomanip", "mutex", "sstream", "typeinfo", true)
252     .Cases("codecvt", "ios", "new", "stack", "unordered_map", true)
253     .Cases("complex", "iosfwd", "numeric", "stdexcept", "unordered_set", true)
254     .Cases("condition_variable", "iostream", "ostream", "streambuf", "utility", true)
255     .Cases("deque", "istream", "queue", "string", "valarray", true)
256     .Cases("exception", "iterator", "random", "strstream", "vector", true)
257     .Cases("forward_list", "limits", "ratio", "system_error", true)
258 
259     // POSIX headers (which aren't also C headers)
260     .Cases("aio.h", "arpa/inet.h", "cpio.h", "dirent.h", "dlfcn.h", true)
261     .Cases("fcntl.h", "fmtmsg.h", "fnmatch.h", "ftw.h", "glob.h", true)
262     .Cases("grp.h", "iconv.h", "langinfo.h", "libgen.h", "monetary.h", true)
263     .Cases("mqueue.h", "ndbm.h", "net/if.h", "netdb.h", "netinet/in.h", true)
264     .Cases("netinet/tcp.h", "nl_types.h", "poll.h", "pthread.h", "pwd.h", true)
265     .Cases("regex.h", "sched.h", "search.h", "semaphore.h", "spawn.h", true)
266     .Cases("strings.h", "stropts.h", "sys/ipc.h", "sys/mman.h", "sys/msg.h", true)
267     .Cases("sys/resource.h", "sys/select.h",  "sys/sem.h", "sys/shm.h", "sys/socket.h", true)
268     .Cases("sys/stat.h", "sys/statvfs.h", "sys/time.h", "sys/times.h", "sys/types.h", true)
269     .Cases("sys/uio.h", "sys/un.h", "sys/utsname.h", "sys/wait.h", "syslog.h", true)
270     .Cases("tar.h", "termios.h", "trace.h", "ulimit.h", true)
271     .Cases("unistd.h", "utime.h", "utmpx.h", "wordexp.h", true)
272     .Default(false);
273 }
274 
275 /// Find a similar string in `Candidates`.
276 ///
277 /// \param LHS a string for a similar string in `Candidates`
278 ///
279 /// \param Candidates the candidates to find a similar string.
280 ///
281 /// \returns a similar string if exists. If no similar string exists,
282 /// returns std::nullopt.
283 static std::optional<StringRef>
284 findSimilarStr(StringRef LHS, const std::vector<StringRef> &Candidates) {
285   // We need to check if `Candidates` has the exact case-insensitive string
286   // because the Levenshtein distance match does not care about it.
287   for (StringRef C : Candidates) {
288     if (LHS.equals_insensitive(C)) {
289       return C;
290     }
291   }
292 
293   // Keep going with the Levenshtein distance match.
294   // If the LHS size is less than 3, use the LHS size minus 1 and if not,
295   // use the LHS size divided by 3.
296   size_t Length = LHS.size();
297   size_t MaxDist = Length < 3 ? Length - 1 : Length / 3;
298 
299   std::optional<std::pair<StringRef, size_t>> SimilarStr;
300   for (StringRef C : Candidates) {
301     size_t CurDist = LHS.edit_distance(C, true);
302     if (CurDist <= MaxDist) {
303       if (!SimilarStr) {
304         // The first similar string found.
305         SimilarStr = {C, CurDist};
306       } else if (CurDist < SimilarStr->second) {
307         // More similar string found.
308         SimilarStr = {C, CurDist};
309       }
310     }
311   }
312 
313   if (SimilarStr) {
314     return SimilarStr->first;
315   } else {
316     return std::nullopt;
317   }
318 }
319 
320 bool Preprocessor::CheckMacroName(Token &MacroNameTok, MacroUse isDefineUndef,
321                                   bool *ShadowFlag) {
322   // Missing macro name?
323   if (MacroNameTok.is(tok::eod))
324     return Diag(MacroNameTok, diag::err_pp_missing_macro_name);
325 
326   IdentifierInfo *II = MacroNameTok.getIdentifierInfo();
327   if (!II)
328     return Diag(MacroNameTok, diag::err_pp_macro_not_identifier);
329 
330   if (II->isCPlusPlusOperatorKeyword()) {
331     // C++ 2.5p2: Alternative tokens behave the same as its primary token
332     // except for their spellings.
333     Diag(MacroNameTok, getLangOpts().MicrosoftExt
334                            ? diag::ext_pp_operator_used_as_macro_name
335                            : diag::err_pp_operator_used_as_macro_name)
336         << II << MacroNameTok.getKind();
337     // Allow #defining |and| and friends for Microsoft compatibility or
338     // recovery when legacy C headers are included in C++.
339   }
340 
341   if ((isDefineUndef != MU_Other) && II->getPPKeywordID() == tok::pp_defined) {
342     // Error if defining "defined": C99 6.10.8/4, C++ [cpp.predefined]p4.
343     return Diag(MacroNameTok, diag::err_defined_macro_name);
344   }
345 
346   // If defining/undefining reserved identifier or a keyword, we need to issue
347   // a warning.
348   SourceLocation MacroNameLoc = MacroNameTok.getLocation();
349   if (ShadowFlag)
350     *ShadowFlag = false;
351   if (!SourceMgr.isInSystemHeader(MacroNameLoc) &&
352       (SourceMgr.getBufferName(MacroNameLoc) != "<built-in>")) {
353     MacroDiag D = MD_NoWarn;
354     if (isDefineUndef == MU_Define) {
355       D = shouldWarnOnMacroDef(*this, II);
356     }
357     else if (isDefineUndef == MU_Undef)
358       D = shouldWarnOnMacroUndef(*this, II);
359     if (D == MD_KeywordDef) {
360       // We do not want to warn on some patterns widely used in configuration
361       // scripts.  This requires analyzing next tokens, so do not issue warnings
362       // now, only inform caller.
363       if (ShadowFlag)
364         *ShadowFlag = true;
365     }
366     if (D == MD_ReservedMacro)
367       Diag(MacroNameTok, diag::warn_pp_macro_is_reserved_id);
368   }
369 
370   // Okay, we got a good identifier.
371   return false;
372 }
373 
374 /// Lex and validate a macro name, which occurs after a
375 /// \#define or \#undef.
376 ///
377 /// This sets the token kind to eod and discards the rest of the macro line if
378 /// the macro name is invalid.
379 ///
380 /// \param MacroNameTok Token that is expected to be a macro name.
381 /// \param isDefineUndef Context in which macro is used.
382 /// \param ShadowFlag Points to a flag that is set if macro shadows a keyword.
383 void Preprocessor::ReadMacroName(Token &MacroNameTok, MacroUse isDefineUndef,
384                                  bool *ShadowFlag) {
385   // Read the token, don't allow macro expansion on it.
386   LexUnexpandedToken(MacroNameTok);
387 
388   if (MacroNameTok.is(tok::code_completion)) {
389     if (CodeComplete)
390       CodeComplete->CodeCompleteMacroName(isDefineUndef == MU_Define);
391     setCodeCompletionReached();
392     LexUnexpandedToken(MacroNameTok);
393   }
394 
395   if (!CheckMacroName(MacroNameTok, isDefineUndef, ShadowFlag))
396     return;
397 
398   // Invalid macro name, read and discard the rest of the line and set the
399   // token kind to tok::eod if necessary.
400   if (MacroNameTok.isNot(tok::eod)) {
401     MacroNameTok.setKind(tok::eod);
402     DiscardUntilEndOfDirective();
403   }
404 }
405 
406 /// Ensure that the next token is a tok::eod token.
407 ///
408 /// If not, emit a diagnostic and consume up until the eod.  If EnableMacros is
409 /// true, then we consider macros that expand to zero tokens as being ok.
410 ///
411 /// Returns the location of the end of the directive.
412 SourceLocation Preprocessor::CheckEndOfDirective(const char *DirType,
413                                                  bool EnableMacros) {
414   Token Tmp;
415   // Lex unexpanded tokens for most directives: macros might expand to zero
416   // tokens, causing us to miss diagnosing invalid lines.  Some directives (like
417   // #line) allow empty macros.
418   if (EnableMacros)
419     Lex(Tmp);
420   else
421     LexUnexpandedToken(Tmp);
422 
423   // There should be no tokens after the directive, but we allow them as an
424   // extension.
425   while (Tmp.is(tok::comment))  // Skip comments in -C mode.
426     LexUnexpandedToken(Tmp);
427 
428   if (Tmp.is(tok::eod))
429     return Tmp.getLocation();
430 
431   // Add a fixit in GNU/C99/C++ mode.  Don't offer a fixit for strict-C89,
432   // or if this is a macro-style preprocessing directive, because it is more
433   // trouble than it is worth to insert /**/ and check that there is no /**/
434   // in the range also.
435   FixItHint Hint;
436   if ((LangOpts.GNUMode || LangOpts.C99 || LangOpts.CPlusPlus) &&
437       !CurTokenLexer)
438     Hint = FixItHint::CreateInsertion(Tmp.getLocation(),"//");
439   Diag(Tmp, diag::ext_pp_extra_tokens_at_eol) << DirType << Hint;
440   return DiscardUntilEndOfDirective().getEnd();
441 }
442 
443 void Preprocessor::SuggestTypoedDirective(const Token &Tok,
444                                           StringRef Directive) const {
445   // If this is a `.S` file, treat unknown # directives as non-preprocessor
446   // directives.
447   if (getLangOpts().AsmPreprocessor) return;
448 
449   std::vector<StringRef> Candidates = {
450       "if", "ifdef", "ifndef", "elif", "else", "endif"
451   };
452   if (LangOpts.C2x || LangOpts.CPlusPlus23)
453     Candidates.insert(Candidates.end(), {"elifdef", "elifndef"});
454 
455   if (std::optional<StringRef> Sugg = findSimilarStr(Directive, Candidates)) {
456     // Directive cannot be coming from macro.
457     assert(Tok.getLocation().isFileID());
458     CharSourceRange DirectiveRange = CharSourceRange::getCharRange(
459         Tok.getLocation(),
460         Tok.getLocation().getLocWithOffset(Directive.size()));
461     StringRef SuggValue = *Sugg;
462 
463     auto Hint = FixItHint::CreateReplacement(DirectiveRange, SuggValue);
464     Diag(Tok, diag::warn_pp_invalid_directive) << 1 << SuggValue << Hint;
465   }
466 }
467 
468 /// SkipExcludedConditionalBlock - We just read a \#if or related directive and
469 /// decided that the subsequent tokens are in the \#if'd out portion of the
470 /// file.  Lex the rest of the file, until we see an \#endif.  If
471 /// FoundNonSkipPortion is true, then we have already emitted code for part of
472 /// this \#if directive, so \#else/\#elif blocks should never be entered.
473 /// If ElseOk is true, then \#else directives are ok, if not, then we have
474 /// already seen one so a \#else directive is a duplicate.  When this returns,
475 /// the caller can lex the first valid token.
476 void Preprocessor::SkipExcludedConditionalBlock(SourceLocation HashTokenLoc,
477                                                 SourceLocation IfTokenLoc,
478                                                 bool FoundNonSkipPortion,
479                                                 bool FoundElse,
480                                                 SourceLocation ElseLoc) {
481   // In SkippingRangeStateTy we are depending on SkipExcludedConditionalBlock()
482   // not getting called recursively by storing the RecordedSkippedRanges
483   // DenseMap lookup pointer (field SkipRangePtr). SkippingRangeStateTy expects
484   // that RecordedSkippedRanges won't get modified and SkipRangePtr won't be
485   // invalidated. If this changes and there is a need to call
486   // SkipExcludedConditionalBlock() recursively, SkippingRangeStateTy should
487   // change to do a second lookup in endLexPass function instead of reusing the
488   // lookup pointer.
489   assert(!SkippingExcludedConditionalBlock &&
490          "calling SkipExcludedConditionalBlock recursively");
491   llvm::SaveAndRestore SARSkipping(SkippingExcludedConditionalBlock, true);
492 
493   ++NumSkipped;
494   assert(!CurTokenLexer && CurPPLexer && "Lexing a macro, not a file?");
495 
496   if (PreambleConditionalStack.reachedEOFWhileSkipping())
497     PreambleConditionalStack.clearSkipInfo();
498   else
499     CurPPLexer->pushConditionalLevel(IfTokenLoc, /*isSkipping*/ false,
500                                      FoundNonSkipPortion, FoundElse);
501 
502   // Enter raw mode to disable identifier lookup (and thus macro expansion),
503   // disabling warnings, etc.
504   CurPPLexer->LexingRawMode = true;
505   Token Tok;
506   SourceLocation endLoc;
507 
508   /// Keeps track and caches skipped ranges and also retrieves a prior skipped
509   /// range if the same block is re-visited.
510   struct SkippingRangeStateTy {
511     Preprocessor &PP;
512 
513     const char *BeginPtr = nullptr;
514     unsigned *SkipRangePtr = nullptr;
515 
516     SkippingRangeStateTy(Preprocessor &PP) : PP(PP) {}
517 
518     void beginLexPass() {
519       if (BeginPtr)
520         return; // continue skipping a block.
521 
522       // Initiate a skipping block and adjust the lexer if we already skipped it
523       // before.
524       BeginPtr = PP.CurLexer->getBufferLocation();
525       SkipRangePtr = &PP.RecordedSkippedRanges[BeginPtr];
526       if (*SkipRangePtr) {
527         PP.CurLexer->seek(PP.CurLexer->getCurrentBufferOffset() + *SkipRangePtr,
528                           /*IsAtStartOfLine*/ true);
529       }
530     }
531 
532     void endLexPass(const char *Hashptr) {
533       if (!BeginPtr) {
534         // Not doing normal lexing.
535         assert(PP.CurLexer->isDependencyDirectivesLexer());
536         return;
537       }
538 
539       // Finished skipping a block, record the range if it's first time visited.
540       if (!*SkipRangePtr) {
541         *SkipRangePtr = Hashptr - BeginPtr;
542       }
543       assert(*SkipRangePtr == Hashptr - BeginPtr);
544       BeginPtr = nullptr;
545       SkipRangePtr = nullptr;
546     }
547   } SkippingRangeState(*this);
548 
549   while (true) {
550     if (CurLexer->isDependencyDirectivesLexer()) {
551       CurLexer->LexDependencyDirectiveTokenWhileSkipping(Tok);
552     } else {
553       SkippingRangeState.beginLexPass();
554       while (true) {
555         CurLexer->Lex(Tok);
556 
557         if (Tok.is(tok::code_completion)) {
558           setCodeCompletionReached();
559           if (CodeComplete)
560             CodeComplete->CodeCompleteInConditionalExclusion();
561           continue;
562         }
563 
564         // If this is the end of the buffer, we have an error.
565         if (Tok.is(tok::eof)) {
566           // We don't emit errors for unterminated conditionals here,
567           // Lexer::LexEndOfFile can do that properly.
568           // Just return and let the caller lex after this #include.
569           if (PreambleConditionalStack.isRecording())
570             PreambleConditionalStack.SkipInfo.emplace(HashTokenLoc, IfTokenLoc,
571                                                       FoundNonSkipPortion,
572                                                       FoundElse, ElseLoc);
573           break;
574         }
575 
576         // If this token is not a preprocessor directive, just skip it.
577         if (Tok.isNot(tok::hash) || !Tok.isAtStartOfLine())
578           continue;
579 
580         break;
581       }
582     }
583     if (Tok.is(tok::eof))
584       break;
585 
586     // We just parsed a # character at the start of a line, so we're in
587     // directive mode.  Tell the lexer this so any newlines we see will be
588     // converted into an EOD token (this terminates the macro).
589     CurPPLexer->ParsingPreprocessorDirective = true;
590     if (CurLexer) CurLexer->SetKeepWhitespaceMode(false);
591 
592     assert(Tok.is(tok::hash));
593     const char *Hashptr = CurLexer->getBufferLocation() - Tok.getLength();
594     assert(CurLexer->getSourceLocation(Hashptr) == Tok.getLocation());
595 
596     // Read the next token, the directive flavor.
597     LexUnexpandedToken(Tok);
598 
599     // If this isn't an identifier directive (e.g. is "# 1\n" or "#\n", or
600     // something bogus), skip it.
601     if (Tok.isNot(tok::raw_identifier)) {
602       CurPPLexer->ParsingPreprocessorDirective = false;
603       // Restore comment saving mode.
604       if (CurLexer) CurLexer->resetExtendedTokenMode();
605       continue;
606     }
607 
608     // If the first letter isn't i or e, it isn't intesting to us.  We know that
609     // this is safe in the face of spelling differences, because there is no way
610     // to spell an i/e in a strange way that is another letter.  Skipping this
611     // allows us to avoid looking up the identifier info for #define/#undef and
612     // other common directives.
613     StringRef RI = Tok.getRawIdentifier();
614 
615     char FirstChar = RI[0];
616     if (FirstChar >= 'a' && FirstChar <= 'z' &&
617         FirstChar != 'i' && FirstChar != 'e') {
618       CurPPLexer->ParsingPreprocessorDirective = false;
619       // Restore comment saving mode.
620       if (CurLexer) CurLexer->resetExtendedTokenMode();
621       continue;
622     }
623 
624     // Get the identifier name without trigraphs or embedded newlines.  Note
625     // that we can't use Tok.getIdentifierInfo() because its lookup is disabled
626     // when skipping.
627     char DirectiveBuf[20];
628     StringRef Directive;
629     if (!Tok.needsCleaning() && RI.size() < 20) {
630       Directive = RI;
631     } else {
632       std::string DirectiveStr = getSpelling(Tok);
633       size_t IdLen = DirectiveStr.size();
634       if (IdLen >= 20) {
635         CurPPLexer->ParsingPreprocessorDirective = false;
636         // Restore comment saving mode.
637         if (CurLexer) CurLexer->resetExtendedTokenMode();
638         continue;
639       }
640       memcpy(DirectiveBuf, &DirectiveStr[0], IdLen);
641       Directive = StringRef(DirectiveBuf, IdLen);
642     }
643 
644     if (Directive.startswith("if")) {
645       StringRef Sub = Directive.substr(2);
646       if (Sub.empty() ||   // "if"
647           Sub == "def" ||   // "ifdef"
648           Sub == "ndef") {  // "ifndef"
649         // We know the entire #if/#ifdef/#ifndef block will be skipped, don't
650         // bother parsing the condition.
651         DiscardUntilEndOfDirective();
652         CurPPLexer->pushConditionalLevel(Tok.getLocation(), /*wasskipping*/true,
653                                        /*foundnonskip*/false,
654                                        /*foundelse*/false);
655       } else {
656         SuggestTypoedDirective(Tok, Directive);
657       }
658     } else if (Directive[0] == 'e') {
659       StringRef Sub = Directive.substr(1);
660       if (Sub == "ndif") {  // "endif"
661         PPConditionalInfo CondInfo;
662         CondInfo.WasSkipping = true; // Silence bogus warning.
663         bool InCond = CurPPLexer->popConditionalLevel(CondInfo);
664         (void)InCond;  // Silence warning in no-asserts mode.
665         assert(!InCond && "Can't be skipping if not in a conditional!");
666 
667         // If we popped the outermost skipping block, we're done skipping!
668         if (!CondInfo.WasSkipping) {
669           SkippingRangeState.endLexPass(Hashptr);
670           // Restore the value of LexingRawMode so that trailing comments
671           // are handled correctly, if we've reached the outermost block.
672           CurPPLexer->LexingRawMode = false;
673           endLoc = CheckEndOfDirective("endif");
674           CurPPLexer->LexingRawMode = true;
675           if (Callbacks)
676             Callbacks->Endif(Tok.getLocation(), CondInfo.IfLoc);
677           break;
678         } else {
679           DiscardUntilEndOfDirective();
680         }
681       } else if (Sub == "lse") { // "else".
682         // #else directive in a skipping conditional.  If not in some other
683         // skipping conditional, and if #else hasn't already been seen, enter it
684         // as a non-skipping conditional.
685         PPConditionalInfo &CondInfo = CurPPLexer->peekConditionalLevel();
686 
687         if (!CondInfo.WasSkipping)
688           SkippingRangeState.endLexPass(Hashptr);
689 
690         // If this is a #else with a #else before it, report the error.
691         if (CondInfo.FoundElse)
692           Diag(Tok, diag::pp_err_else_after_else);
693 
694         // Note that we've seen a #else in this conditional.
695         CondInfo.FoundElse = true;
696 
697         // If the conditional is at the top level, and the #if block wasn't
698         // entered, enter the #else block now.
699         if (!CondInfo.WasSkipping && !CondInfo.FoundNonSkip) {
700           CondInfo.FoundNonSkip = true;
701           // Restore the value of LexingRawMode so that trailing comments
702           // are handled correctly.
703           CurPPLexer->LexingRawMode = false;
704           endLoc = CheckEndOfDirective("else");
705           CurPPLexer->LexingRawMode = true;
706           if (Callbacks)
707             Callbacks->Else(Tok.getLocation(), CondInfo.IfLoc);
708           break;
709         } else {
710           DiscardUntilEndOfDirective();  // C99 6.10p4.
711         }
712       } else if (Sub == "lif") {  // "elif".
713         PPConditionalInfo &CondInfo = CurPPLexer->peekConditionalLevel();
714 
715         if (!CondInfo.WasSkipping)
716           SkippingRangeState.endLexPass(Hashptr);
717 
718         // If this is a #elif with a #else before it, report the error.
719         if (CondInfo.FoundElse)
720           Diag(Tok, diag::pp_err_elif_after_else) << PED_Elif;
721 
722         // If this is in a skipping block or if we're already handled this #if
723         // block, don't bother parsing the condition.
724         if (CondInfo.WasSkipping || CondInfo.FoundNonSkip) {
725           // FIXME: We should probably do at least some minimal parsing of the
726           // condition to verify that it is well-formed. The current state
727           // allows #elif* directives with completely malformed (or missing)
728           // conditions.
729           DiscardUntilEndOfDirective();
730         } else {
731           // Restore the value of LexingRawMode so that identifiers are
732           // looked up, etc, inside the #elif expression.
733           assert(CurPPLexer->LexingRawMode && "We have to be skipping here!");
734           CurPPLexer->LexingRawMode = false;
735           IdentifierInfo *IfNDefMacro = nullptr;
736           DirectiveEvalResult DER = EvaluateDirectiveExpression(IfNDefMacro);
737           // Stop if Lexer became invalid after hitting code completion token.
738           if (!CurPPLexer)
739             return;
740           const bool CondValue = DER.Conditional;
741           CurPPLexer->LexingRawMode = true;
742           if (Callbacks) {
743             Callbacks->Elif(
744                 Tok.getLocation(), DER.ExprRange,
745                 (CondValue ? PPCallbacks::CVK_True : PPCallbacks::CVK_False),
746                 CondInfo.IfLoc);
747           }
748           // If this condition is true, enter it!
749           if (CondValue) {
750             CondInfo.FoundNonSkip = true;
751             break;
752           }
753         }
754       } else if (Sub == "lifdef" ||  // "elifdef"
755                  Sub == "lifndef") { // "elifndef"
756         bool IsElifDef = Sub == "lifdef";
757         PPConditionalInfo &CondInfo = CurPPLexer->peekConditionalLevel();
758         Token DirectiveToken = Tok;
759 
760         if (!CondInfo.WasSkipping)
761           SkippingRangeState.endLexPass(Hashptr);
762 
763         // Warn if using `#elifdef` & `#elifndef` in not C2x & C++23 mode even
764         // if this branch is in a skipping block.
765         unsigned DiagID;
766         if (LangOpts.CPlusPlus)
767           DiagID = LangOpts.CPlusPlus23 ? diag::warn_cxx23_compat_pp_directive
768                                         : diag::ext_cxx23_pp_directive;
769         else
770           DiagID = LangOpts.C2x ? diag::warn_c2x_compat_pp_directive
771                                 : diag::ext_c2x_pp_directive;
772         Diag(Tok, DiagID) << (IsElifDef ? PED_Elifdef : PED_Elifndef);
773 
774         // If this is a #elif with a #else before it, report the error.
775         if (CondInfo.FoundElse)
776           Diag(Tok, diag::pp_err_elif_after_else)
777               << (IsElifDef ? PED_Elifdef : PED_Elifndef);
778 
779         // If this is in a skipping block or if we're already handled this #if
780         // block, don't bother parsing the condition.
781         if (CondInfo.WasSkipping || CondInfo.FoundNonSkip) {
782           // FIXME: We should probably do at least some minimal parsing of the
783           // condition to verify that it is well-formed. The current state
784           // allows #elif* directives with completely malformed (or missing)
785           // conditions.
786           DiscardUntilEndOfDirective();
787         } else {
788           // Restore the value of LexingRawMode so that identifiers are
789           // looked up, etc, inside the #elif[n]def expression.
790           assert(CurPPLexer->LexingRawMode && "We have to be skipping here!");
791           CurPPLexer->LexingRawMode = false;
792           Token MacroNameTok;
793           ReadMacroName(MacroNameTok);
794           CurPPLexer->LexingRawMode = true;
795 
796           // If the macro name token is tok::eod, there was an error that was
797           // already reported.
798           if (MacroNameTok.is(tok::eod)) {
799             // Skip code until we get to #endif.  This helps with recovery by
800             // not emitting an error when the #endif is reached.
801             continue;
802           }
803 
804           emitMacroExpansionWarnings(MacroNameTok);
805 
806           CheckEndOfDirective(IsElifDef ? "elifdef" : "elifndef");
807 
808           IdentifierInfo *MII = MacroNameTok.getIdentifierInfo();
809           auto MD = getMacroDefinition(MII);
810           MacroInfo *MI = MD.getMacroInfo();
811 
812           if (Callbacks) {
813             if (IsElifDef) {
814               Callbacks->Elifdef(DirectiveToken.getLocation(), MacroNameTok,
815                                  MD);
816             } else {
817               Callbacks->Elifndef(DirectiveToken.getLocation(), MacroNameTok,
818                                   MD);
819             }
820           }
821           // If this condition is true, enter it!
822           if (static_cast<bool>(MI) == IsElifDef) {
823             CondInfo.FoundNonSkip = true;
824             break;
825           }
826         }
827       } else {
828         SuggestTypoedDirective(Tok, Directive);
829       }
830     } else {
831       SuggestTypoedDirective(Tok, Directive);
832     }
833 
834     CurPPLexer->ParsingPreprocessorDirective = false;
835     // Restore comment saving mode.
836     if (CurLexer) CurLexer->resetExtendedTokenMode();
837   }
838 
839   // Finally, if we are out of the conditional (saw an #endif or ran off the end
840   // of the file, just stop skipping and return to lexing whatever came after
841   // the #if block.
842   CurPPLexer->LexingRawMode = false;
843 
844   // The last skipped range isn't actually skipped yet if it's truncated
845   // by the end of the preamble; we'll resume parsing after the preamble.
846   if (Callbacks && (Tok.isNot(tok::eof) || !isRecordingPreamble()))
847     Callbacks->SourceRangeSkipped(
848         SourceRange(HashTokenLoc, endLoc.isValid()
849                                       ? endLoc
850                                       : CurPPLexer->getSourceLocation()),
851         Tok.getLocation());
852 }
853 
854 Module *Preprocessor::getModuleForLocation(SourceLocation Loc,
855                                            bool AllowTextual) {
856   if (!SourceMgr.isInMainFile(Loc)) {
857     // Try to determine the module of the include directive.
858     // FIXME: Look into directly passing the FileEntry from LookupFile instead.
859     FileID IDOfIncl = SourceMgr.getFileID(SourceMgr.getExpansionLoc(Loc));
860     if (auto EntryOfIncl = SourceMgr.getFileEntryRefForID(IDOfIncl)) {
861       // The include comes from an included file.
862       return HeaderInfo.getModuleMap()
863           .findModuleForHeader(*EntryOfIncl, AllowTextual)
864           .getModule();
865     }
866   }
867 
868   // This is either in the main file or not in a file at all. It belongs
869   // to the current module, if there is one.
870   return getLangOpts().CurrentModule.empty()
871              ? nullptr
872              : HeaderInfo.lookupModule(getLangOpts().CurrentModule, Loc);
873 }
874 
875 const FileEntry *
876 Preprocessor::getHeaderToIncludeForDiagnostics(SourceLocation IncLoc,
877                                                SourceLocation Loc) {
878   Module *IncM = getModuleForLocation(
879       IncLoc, LangOpts.ModulesValidateTextualHeaderIncludes);
880 
881   // Walk up through the include stack, looking through textual headers of M
882   // until we hit a non-textual header that we can #include. (We assume textual
883   // headers of a module with non-textual headers aren't meant to be used to
884   // import entities from the module.)
885   auto &SM = getSourceManager();
886   while (!Loc.isInvalid() && !SM.isInMainFile(Loc)) {
887     auto ID = SM.getFileID(SM.getExpansionLoc(Loc));
888     auto FE = SM.getFileEntryRefForID(ID);
889     if (!FE)
890       break;
891 
892     // We want to find all possible modules that might contain this header, so
893     // search all enclosing directories for module maps and load them.
894     HeaderInfo.hasModuleMap(FE->getName(), /*Root*/ nullptr,
895                             SourceMgr.isInSystemHeader(Loc));
896 
897     bool InPrivateHeader = false;
898     for (auto Header : HeaderInfo.findAllModulesForHeader(*FE)) {
899       if (!Header.isAccessibleFrom(IncM)) {
900         // It's in a private header; we can't #include it.
901         // FIXME: If there's a public header in some module that re-exports it,
902         // then we could suggest including that, but it's not clear that's the
903         // expected way to make this entity visible.
904         InPrivateHeader = true;
905         continue;
906       }
907 
908       // Don't suggest explicitly excluded headers.
909       if (Header.getRole() == ModuleMap::ExcludedHeader)
910         continue;
911 
912       // We'll suggest including textual headers below if they're
913       // include-guarded.
914       if (Header.getRole() & ModuleMap::TextualHeader)
915         continue;
916 
917       // If we have a module import syntax, we shouldn't include a header to
918       // make a particular module visible. Let the caller know they should
919       // suggest an import instead.
920       if (getLangOpts().ObjC || getLangOpts().CPlusPlusModules)
921         return nullptr;
922 
923       // If this is an accessible, non-textual header of M's top-level module
924       // that transitively includes the given location and makes the
925       // corresponding module visible, this is the thing to #include.
926       return *FE;
927     }
928 
929     // FIXME: If we're bailing out due to a private header, we shouldn't suggest
930     // an import either.
931     if (InPrivateHeader)
932       return nullptr;
933 
934     // If the header is includable and has an include guard, assume the
935     // intended way to expose its contents is by #include, not by importing a
936     // module that transitively includes it.
937     if (getHeaderSearchInfo().isFileMultipleIncludeGuarded(*FE))
938       return *FE;
939 
940     Loc = SM.getIncludeLoc(ID);
941   }
942 
943   return nullptr;
944 }
945 
946 OptionalFileEntryRef Preprocessor::LookupFile(
947     SourceLocation FilenameLoc, StringRef Filename, bool isAngled,
948     ConstSearchDirIterator FromDir, const FileEntry *FromFile,
949     ConstSearchDirIterator *CurDirArg, SmallVectorImpl<char> *SearchPath,
950     SmallVectorImpl<char> *RelativePath,
951     ModuleMap::KnownHeader *SuggestedModule, bool *IsMapped,
952     bool *IsFrameworkFound, bool SkipCache, bool OpenFile, bool CacheFailures) {
953   ConstSearchDirIterator CurDirLocal = nullptr;
954   ConstSearchDirIterator &CurDir = CurDirArg ? *CurDirArg : CurDirLocal;
955 
956   Module *RequestingModule = getModuleForLocation(
957       FilenameLoc, LangOpts.ModulesValidateTextualHeaderIncludes);
958   bool RequestingModuleIsModuleInterface = !SourceMgr.isInMainFile(FilenameLoc);
959 
960   // If the header lookup mechanism may be relative to the current inclusion
961   // stack, record the parent #includes.
962   SmallVector<std::pair<const FileEntry *, DirectoryEntryRef>, 16> Includers;
963   bool BuildSystemModule = false;
964   if (!FromDir && !FromFile) {
965     FileID FID = getCurrentFileLexer()->getFileID();
966     OptionalFileEntryRef FileEnt = SourceMgr.getFileEntryRefForID(FID);
967 
968     // If there is no file entry associated with this file, it must be the
969     // predefines buffer or the module includes buffer. Any other file is not
970     // lexed with a normal lexer, so it won't be scanned for preprocessor
971     // directives.
972     //
973     // If we have the predefines buffer, resolve #include references (which come
974     // from the -include command line argument) from the current working
975     // directory instead of relative to the main file.
976     //
977     // If we have the module includes buffer, resolve #include references (which
978     // come from header declarations in the module map) relative to the module
979     // map file.
980     if (!FileEnt) {
981       if (FID == SourceMgr.getMainFileID() && MainFileDir) {
982         Includers.push_back(std::make_pair(nullptr, *MainFileDir));
983         BuildSystemModule = getCurrentModule()->IsSystem;
984       } else if ((FileEnt = SourceMgr.getFileEntryRefForID(
985                       SourceMgr.getMainFileID()))) {
986         auto CWD = FileMgr.getOptionalDirectoryRef(".");
987         Includers.push_back(std::make_pair(*FileEnt, *CWD));
988       }
989     } else {
990       Includers.push_back(std::make_pair(*FileEnt, FileEnt->getDir()));
991     }
992 
993     // MSVC searches the current include stack from top to bottom for
994     // headers included by quoted include directives.
995     // See: http://msdn.microsoft.com/en-us/library/36k2cdd4.aspx
996     if (LangOpts.MSVCCompat && !isAngled) {
997       for (IncludeStackInfo &ISEntry : llvm::reverse(IncludeMacroStack)) {
998         if (IsFileLexer(ISEntry))
999           if ((FileEnt = ISEntry.ThePPLexer->getFileEntry()))
1000             Includers.push_back(std::make_pair(*FileEnt, FileEnt->getDir()));
1001       }
1002     }
1003   }
1004 
1005   CurDir = CurDirLookup;
1006 
1007   if (FromFile) {
1008     // We're supposed to start looking from after a particular file. Search
1009     // the include path until we find that file or run out of files.
1010     ConstSearchDirIterator TmpCurDir = CurDir;
1011     ConstSearchDirIterator TmpFromDir = nullptr;
1012     while (OptionalFileEntryRef FE = HeaderInfo.LookupFile(
1013                Filename, FilenameLoc, isAngled, TmpFromDir, &TmpCurDir,
1014                Includers, SearchPath, RelativePath, RequestingModule,
1015                SuggestedModule, /*IsMapped=*/nullptr,
1016                /*IsFrameworkFound=*/nullptr, SkipCache)) {
1017       // Keep looking as if this file did a #include_next.
1018       TmpFromDir = TmpCurDir;
1019       ++TmpFromDir;
1020       if (&FE->getFileEntry() == FromFile) {
1021         // Found it.
1022         FromDir = TmpFromDir;
1023         CurDir = TmpCurDir;
1024         break;
1025       }
1026     }
1027   }
1028 
1029   // Do a standard file entry lookup.
1030   OptionalFileEntryRef FE = HeaderInfo.LookupFile(
1031       Filename, FilenameLoc, isAngled, FromDir, &CurDir, Includers, SearchPath,
1032       RelativePath, RequestingModule, SuggestedModule, IsMapped,
1033       IsFrameworkFound, SkipCache, BuildSystemModule, OpenFile, CacheFailures);
1034   if (FE) {
1035     if (SuggestedModule && !LangOpts.AsmPreprocessor)
1036       HeaderInfo.getModuleMap().diagnoseHeaderInclusion(
1037           RequestingModule, RequestingModuleIsModuleInterface, FilenameLoc,
1038           Filename, *FE);
1039     return FE;
1040   }
1041 
1042   const FileEntry *CurFileEnt;
1043   // Otherwise, see if this is a subframework header.  If so, this is relative
1044   // to one of the headers on the #include stack.  Walk the list of the current
1045   // headers on the #include stack and pass them to HeaderInfo.
1046   if (IsFileLexer()) {
1047     if ((CurFileEnt = CurPPLexer->getFileEntry())) {
1048       if (OptionalFileEntryRef FE = HeaderInfo.LookupSubframeworkHeader(
1049               Filename, CurFileEnt, SearchPath, RelativePath, RequestingModule,
1050               SuggestedModule)) {
1051         if (SuggestedModule && !LangOpts.AsmPreprocessor)
1052           HeaderInfo.getModuleMap().diagnoseHeaderInclusion(
1053               RequestingModule, RequestingModuleIsModuleInterface, FilenameLoc,
1054               Filename, *FE);
1055         return FE;
1056       }
1057     }
1058   }
1059 
1060   for (IncludeStackInfo &ISEntry : llvm::reverse(IncludeMacroStack)) {
1061     if (IsFileLexer(ISEntry)) {
1062       if ((CurFileEnt = ISEntry.ThePPLexer->getFileEntry())) {
1063         if (OptionalFileEntryRef FE = HeaderInfo.LookupSubframeworkHeader(
1064                 Filename, CurFileEnt, SearchPath, RelativePath,
1065                 RequestingModule, SuggestedModule)) {
1066           if (SuggestedModule && !LangOpts.AsmPreprocessor)
1067             HeaderInfo.getModuleMap().diagnoseHeaderInclusion(
1068                 RequestingModule, RequestingModuleIsModuleInterface,
1069                 FilenameLoc, Filename, *FE);
1070           return FE;
1071         }
1072       }
1073     }
1074   }
1075 
1076   // Otherwise, we really couldn't find the file.
1077   return std::nullopt;
1078 }
1079 
1080 //===----------------------------------------------------------------------===//
1081 // Preprocessor Directive Handling.
1082 //===----------------------------------------------------------------------===//
1083 
1084 class Preprocessor::ResetMacroExpansionHelper {
1085 public:
1086   ResetMacroExpansionHelper(Preprocessor *pp)
1087     : PP(pp), save(pp->DisableMacroExpansion) {
1088     if (pp->MacroExpansionInDirectivesOverride)
1089       pp->DisableMacroExpansion = false;
1090   }
1091 
1092   ~ResetMacroExpansionHelper() {
1093     PP->DisableMacroExpansion = save;
1094   }
1095 
1096 private:
1097   Preprocessor *PP;
1098   bool save;
1099 };
1100 
1101 /// Process a directive while looking for the through header or a #pragma
1102 /// hdrstop. The following directives are handled:
1103 /// #include (to check if it is the through header)
1104 /// #define (to warn about macros that don't match the PCH)
1105 /// #pragma (to check for pragma hdrstop).
1106 /// All other directives are completely discarded.
1107 void Preprocessor::HandleSkippedDirectiveWhileUsingPCH(Token &Result,
1108                                                        SourceLocation HashLoc) {
1109   if (const IdentifierInfo *II = Result.getIdentifierInfo()) {
1110     if (II->getPPKeywordID() == tok::pp_define) {
1111       return HandleDefineDirective(Result,
1112                                    /*ImmediatelyAfterHeaderGuard=*/false);
1113     }
1114     if (SkippingUntilPCHThroughHeader &&
1115         II->getPPKeywordID() == tok::pp_include) {
1116       return HandleIncludeDirective(HashLoc, Result);
1117     }
1118     if (SkippingUntilPragmaHdrStop && II->getPPKeywordID() == tok::pp_pragma) {
1119       Lex(Result);
1120       auto *II = Result.getIdentifierInfo();
1121       if (II && II->getName() == "hdrstop")
1122         return HandlePragmaHdrstop(Result);
1123     }
1124   }
1125   DiscardUntilEndOfDirective();
1126 }
1127 
1128 /// HandleDirective - This callback is invoked when the lexer sees a # token
1129 /// at the start of a line.  This consumes the directive, modifies the
1130 /// lexer/preprocessor state, and advances the lexer(s) so that the next token
1131 /// read is the correct one.
1132 void Preprocessor::HandleDirective(Token &Result) {
1133   // FIXME: Traditional: # with whitespace before it not recognized by K&R?
1134 
1135   // We just parsed a # character at the start of a line, so we're in directive
1136   // mode.  Tell the lexer this so any newlines we see will be converted into an
1137   // EOD token (which terminates the directive).
1138   CurPPLexer->ParsingPreprocessorDirective = true;
1139   if (CurLexer) CurLexer->SetKeepWhitespaceMode(false);
1140 
1141   bool ImmediatelyAfterTopLevelIfndef =
1142       CurPPLexer->MIOpt.getImmediatelyAfterTopLevelIfndef();
1143   CurPPLexer->MIOpt.resetImmediatelyAfterTopLevelIfndef();
1144 
1145   ++NumDirectives;
1146 
1147   // We are about to read a token.  For the multiple-include optimization FA to
1148   // work, we have to remember if we had read any tokens *before* this
1149   // pp-directive.
1150   bool ReadAnyTokensBeforeDirective =CurPPLexer->MIOpt.getHasReadAnyTokensVal();
1151 
1152   // Save the '#' token in case we need to return it later.
1153   Token SavedHash = Result;
1154 
1155   // Read the next token, the directive flavor.  This isn't expanded due to
1156   // C99 6.10.3p8.
1157   LexUnexpandedToken(Result);
1158 
1159   // C99 6.10.3p11: Is this preprocessor directive in macro invocation?  e.g.:
1160   //   #define A(x) #x
1161   //   A(abc
1162   //     #warning blah
1163   //   def)
1164   // If so, the user is relying on undefined behavior, emit a diagnostic. Do
1165   // not support this for #include-like directives, since that can result in
1166   // terrible diagnostics, and does not work in GCC.
1167   if (InMacroArgs) {
1168     if (IdentifierInfo *II = Result.getIdentifierInfo()) {
1169       switch (II->getPPKeywordID()) {
1170       case tok::pp_include:
1171       case tok::pp_import:
1172       case tok::pp_include_next:
1173       case tok::pp___include_macros:
1174       case tok::pp_pragma:
1175         Diag(Result, diag::err_embedded_directive) << II->getName();
1176         Diag(*ArgMacro, diag::note_macro_expansion_here)
1177             << ArgMacro->getIdentifierInfo();
1178         DiscardUntilEndOfDirective();
1179         return;
1180       default:
1181         break;
1182       }
1183     }
1184     Diag(Result, diag::ext_embedded_directive);
1185   }
1186 
1187   // Temporarily enable macro expansion if set so
1188   // and reset to previous state when returning from this function.
1189   ResetMacroExpansionHelper helper(this);
1190 
1191   if (SkippingUntilPCHThroughHeader || SkippingUntilPragmaHdrStop)
1192     return HandleSkippedDirectiveWhileUsingPCH(Result, SavedHash.getLocation());
1193 
1194   switch (Result.getKind()) {
1195   case tok::eod:
1196     // Ignore the null directive with regards to the multiple-include
1197     // optimization, i.e. allow the null directive to appear outside of the
1198     // include guard and still enable the multiple-include optimization.
1199     CurPPLexer->MIOpt.SetReadToken(ReadAnyTokensBeforeDirective);
1200     return;   // null directive.
1201   case tok::code_completion:
1202     setCodeCompletionReached();
1203     if (CodeComplete)
1204       CodeComplete->CodeCompleteDirective(
1205                                     CurPPLexer->getConditionalStackDepth() > 0);
1206     return;
1207   case tok::numeric_constant:  // # 7  GNU line marker directive.
1208     // In a .S file "# 4" may be a comment so don't treat it as a preprocessor
1209     // directive. However do permit it in the predefines file, as we use line
1210     // markers to mark the builtin macros as being in a system header.
1211     if (getLangOpts().AsmPreprocessor &&
1212         SourceMgr.getFileID(SavedHash.getLocation()) != getPredefinesFileID())
1213       break;
1214     return HandleDigitDirective(Result);
1215   default:
1216     IdentifierInfo *II = Result.getIdentifierInfo();
1217     if (!II) break; // Not an identifier.
1218 
1219     // Ask what the preprocessor keyword ID is.
1220     switch (II->getPPKeywordID()) {
1221     default: break;
1222     // C99 6.10.1 - Conditional Inclusion.
1223     case tok::pp_if:
1224       return HandleIfDirective(Result, SavedHash, ReadAnyTokensBeforeDirective);
1225     case tok::pp_ifdef:
1226       return HandleIfdefDirective(Result, SavedHash, false,
1227                                   true /*not valid for miopt*/);
1228     case tok::pp_ifndef:
1229       return HandleIfdefDirective(Result, SavedHash, true,
1230                                   ReadAnyTokensBeforeDirective);
1231     case tok::pp_elif:
1232     case tok::pp_elifdef:
1233     case tok::pp_elifndef:
1234       return HandleElifFamilyDirective(Result, SavedHash, II->getPPKeywordID());
1235 
1236     case tok::pp_else:
1237       return HandleElseDirective(Result, SavedHash);
1238     case tok::pp_endif:
1239       return HandleEndifDirective(Result);
1240 
1241     // C99 6.10.2 - Source File Inclusion.
1242     case tok::pp_include:
1243       // Handle #include.
1244       return HandleIncludeDirective(SavedHash.getLocation(), Result);
1245     case tok::pp___include_macros:
1246       // Handle -imacros.
1247       return HandleIncludeMacrosDirective(SavedHash.getLocation(), Result);
1248 
1249     // C99 6.10.3 - Macro Replacement.
1250     case tok::pp_define:
1251       return HandleDefineDirective(Result, ImmediatelyAfterTopLevelIfndef);
1252     case tok::pp_undef:
1253       return HandleUndefDirective();
1254 
1255     // C99 6.10.4 - Line Control.
1256     case tok::pp_line:
1257       return HandleLineDirective();
1258 
1259     // C99 6.10.5 - Error Directive.
1260     case tok::pp_error:
1261       return HandleUserDiagnosticDirective(Result, false);
1262 
1263     // C99 6.10.6 - Pragma Directive.
1264     case tok::pp_pragma:
1265       return HandlePragmaDirective({PIK_HashPragma, SavedHash.getLocation()});
1266 
1267     // GNU Extensions.
1268     case tok::pp_import:
1269       return HandleImportDirective(SavedHash.getLocation(), Result);
1270     case tok::pp_include_next:
1271       return HandleIncludeNextDirective(SavedHash.getLocation(), Result);
1272 
1273     case tok::pp_warning:
1274       if (LangOpts.CPlusPlus)
1275         Diag(Result, LangOpts.CPlusPlus23
1276                          ? diag::warn_cxx23_compat_warning_directive
1277                          : diag::ext_pp_warning_directive)
1278             << /*C++23*/ 1;
1279       else
1280         Diag(Result, LangOpts.C2x ? diag::warn_c2x_compat_warning_directive
1281                                   : diag::ext_pp_warning_directive)
1282             << /*C2x*/ 0;
1283 
1284       return HandleUserDiagnosticDirective(Result, true);
1285     case tok::pp_ident:
1286       return HandleIdentSCCSDirective(Result);
1287     case tok::pp_sccs:
1288       return HandleIdentSCCSDirective(Result);
1289     case tok::pp_assert:
1290       //isExtension = true;  // FIXME: implement #assert
1291       break;
1292     case tok::pp_unassert:
1293       //isExtension = true;  // FIXME: implement #unassert
1294       break;
1295 
1296     case tok::pp___public_macro:
1297       if (getLangOpts().Modules || getLangOpts().ModulesLocalVisibility)
1298         return HandleMacroPublicDirective(Result);
1299       break;
1300 
1301     case tok::pp___private_macro:
1302       if (getLangOpts().Modules || getLangOpts().ModulesLocalVisibility)
1303         return HandleMacroPrivateDirective();
1304       break;
1305     }
1306     break;
1307   }
1308 
1309   // If this is a .S file, treat unknown # directives as non-preprocessor
1310   // directives.  This is important because # may be a comment or introduce
1311   // various pseudo-ops.  Just return the # token and push back the following
1312   // token to be lexed next time.
1313   if (getLangOpts().AsmPreprocessor) {
1314     auto Toks = std::make_unique<Token[]>(2);
1315     // Return the # and the token after it.
1316     Toks[0] = SavedHash;
1317     Toks[1] = Result;
1318 
1319     // If the second token is a hashhash token, then we need to translate it to
1320     // unknown so the token lexer doesn't try to perform token pasting.
1321     if (Result.is(tok::hashhash))
1322       Toks[1].setKind(tok::unknown);
1323 
1324     // Enter this token stream so that we re-lex the tokens.  Make sure to
1325     // enable macro expansion, in case the token after the # is an identifier
1326     // that is expanded.
1327     EnterTokenStream(std::move(Toks), 2, false, /*IsReinject*/false);
1328     return;
1329   }
1330 
1331   // If we reached here, the preprocessing token is not valid!
1332   // Start suggesting if a similar directive found.
1333   Diag(Result, diag::err_pp_invalid_directive) << 0;
1334 
1335   // Read the rest of the PP line.
1336   DiscardUntilEndOfDirective();
1337 
1338   // Okay, we're done parsing the directive.
1339 }
1340 
1341 /// GetLineValue - Convert a numeric token into an unsigned value, emitting
1342 /// Diagnostic DiagID if it is invalid, and returning the value in Val.
1343 static bool GetLineValue(Token &DigitTok, unsigned &Val,
1344                          unsigned DiagID, Preprocessor &PP,
1345                          bool IsGNULineDirective=false) {
1346   if (DigitTok.isNot(tok::numeric_constant)) {
1347     PP.Diag(DigitTok, DiagID);
1348 
1349     if (DigitTok.isNot(tok::eod))
1350       PP.DiscardUntilEndOfDirective();
1351     return true;
1352   }
1353 
1354   SmallString<64> IntegerBuffer;
1355   IntegerBuffer.resize(DigitTok.getLength());
1356   const char *DigitTokBegin = &IntegerBuffer[0];
1357   bool Invalid = false;
1358   unsigned ActualLength = PP.getSpelling(DigitTok, DigitTokBegin, &Invalid);
1359   if (Invalid)
1360     return true;
1361 
1362   // Verify that we have a simple digit-sequence, and compute the value.  This
1363   // is always a simple digit string computed in decimal, so we do this manually
1364   // here.
1365   Val = 0;
1366   for (unsigned i = 0; i != ActualLength; ++i) {
1367     // C++1y [lex.fcon]p1:
1368     //   Optional separating single quotes in a digit-sequence are ignored
1369     if (DigitTokBegin[i] == '\'')
1370       continue;
1371 
1372     if (!isDigit(DigitTokBegin[i])) {
1373       PP.Diag(PP.AdvanceToTokenCharacter(DigitTok.getLocation(), i),
1374               diag::err_pp_line_digit_sequence) << IsGNULineDirective;
1375       PP.DiscardUntilEndOfDirective();
1376       return true;
1377     }
1378 
1379     unsigned NextVal = Val*10+(DigitTokBegin[i]-'0');
1380     if (NextVal < Val) { // overflow.
1381       PP.Diag(DigitTok, DiagID);
1382       PP.DiscardUntilEndOfDirective();
1383       return true;
1384     }
1385     Val = NextVal;
1386   }
1387 
1388   if (DigitTokBegin[0] == '0' && Val)
1389     PP.Diag(DigitTok.getLocation(), diag::warn_pp_line_decimal)
1390       << IsGNULineDirective;
1391 
1392   return false;
1393 }
1394 
1395 /// Handle a \#line directive: C99 6.10.4.
1396 ///
1397 /// The two acceptable forms are:
1398 /// \verbatim
1399 ///   # line digit-sequence
1400 ///   # line digit-sequence "s-char-sequence"
1401 /// \endverbatim
1402 void Preprocessor::HandleLineDirective() {
1403   // Read the line # and string argument.  Per C99 6.10.4p5, these tokens are
1404   // expanded.
1405   Token DigitTok;
1406   Lex(DigitTok);
1407 
1408   // Validate the number and convert it to an unsigned.
1409   unsigned LineNo;
1410   if (GetLineValue(DigitTok, LineNo, diag::err_pp_line_requires_integer,*this))
1411     return;
1412 
1413   if (LineNo == 0)
1414     Diag(DigitTok, diag::ext_pp_line_zero);
1415 
1416   // Enforce C99 6.10.4p3: "The digit sequence shall not specify ... a
1417   // number greater than 2147483647".  C90 requires that the line # be <= 32767.
1418   unsigned LineLimit = 32768U;
1419   if (LangOpts.C99 || LangOpts.CPlusPlus11)
1420     LineLimit = 2147483648U;
1421   if (LineNo >= LineLimit)
1422     Diag(DigitTok, diag::ext_pp_line_too_big) << LineLimit;
1423   else if (LangOpts.CPlusPlus11 && LineNo >= 32768U)
1424     Diag(DigitTok, diag::warn_cxx98_compat_pp_line_too_big);
1425 
1426   int FilenameID = -1;
1427   Token StrTok;
1428   Lex(StrTok);
1429 
1430   // If the StrTok is "eod", then it wasn't present.  Otherwise, it must be a
1431   // string followed by eod.
1432   if (StrTok.is(tok::eod))
1433     ; // ok
1434   else if (StrTok.isNot(tok::string_literal)) {
1435     Diag(StrTok, diag::err_pp_line_invalid_filename);
1436     DiscardUntilEndOfDirective();
1437     return;
1438   } else if (StrTok.hasUDSuffix()) {
1439     Diag(StrTok, diag::err_invalid_string_udl);
1440     DiscardUntilEndOfDirective();
1441     return;
1442   } else {
1443     // Parse and validate the string, converting it into a unique ID.
1444     StringLiteralParser Literal(StrTok, *this);
1445     assert(Literal.isOrdinary() && "Didn't allow wide strings in");
1446     if (Literal.hadError) {
1447       DiscardUntilEndOfDirective();
1448       return;
1449     }
1450     if (Literal.Pascal) {
1451       Diag(StrTok, diag::err_pp_linemarker_invalid_filename);
1452       DiscardUntilEndOfDirective();
1453       return;
1454     }
1455     FilenameID = SourceMgr.getLineTableFilenameID(Literal.GetString());
1456 
1457     // Verify that there is nothing after the string, other than EOD.  Because
1458     // of C99 6.10.4p5, macros that expand to empty tokens are ok.
1459     CheckEndOfDirective("line", true);
1460   }
1461 
1462   // Take the file kind of the file containing the #line directive. #line
1463   // directives are often used for generated sources from the same codebase, so
1464   // the new file should generally be classified the same way as the current
1465   // file. This is visible in GCC's pre-processed output, which rewrites #line
1466   // to GNU line markers.
1467   SrcMgr::CharacteristicKind FileKind =
1468       SourceMgr.getFileCharacteristic(DigitTok.getLocation());
1469 
1470   SourceMgr.AddLineNote(DigitTok.getLocation(), LineNo, FilenameID, false,
1471                         false, FileKind);
1472 
1473   if (Callbacks)
1474     Callbacks->FileChanged(CurPPLexer->getSourceLocation(),
1475                            PPCallbacks::RenameFile, FileKind);
1476 }
1477 
1478 /// ReadLineMarkerFlags - Parse and validate any flags at the end of a GNU line
1479 /// marker directive.
1480 static bool ReadLineMarkerFlags(bool &IsFileEntry, bool &IsFileExit,
1481                                 SrcMgr::CharacteristicKind &FileKind,
1482                                 Preprocessor &PP) {
1483   unsigned FlagVal;
1484   Token FlagTok;
1485   PP.Lex(FlagTok);
1486   if (FlagTok.is(tok::eod)) return false;
1487   if (GetLineValue(FlagTok, FlagVal, diag::err_pp_linemarker_invalid_flag, PP))
1488     return true;
1489 
1490   if (FlagVal == 1) {
1491     IsFileEntry = true;
1492 
1493     PP.Lex(FlagTok);
1494     if (FlagTok.is(tok::eod)) return false;
1495     if (GetLineValue(FlagTok, FlagVal, diag::err_pp_linemarker_invalid_flag,PP))
1496       return true;
1497   } else if (FlagVal == 2) {
1498     IsFileExit = true;
1499 
1500     SourceManager &SM = PP.getSourceManager();
1501     // If we are leaving the current presumed file, check to make sure the
1502     // presumed include stack isn't empty!
1503     FileID CurFileID =
1504       SM.getDecomposedExpansionLoc(FlagTok.getLocation()).first;
1505     PresumedLoc PLoc = SM.getPresumedLoc(FlagTok.getLocation());
1506     if (PLoc.isInvalid())
1507       return true;
1508 
1509     // If there is no include loc (main file) or if the include loc is in a
1510     // different physical file, then we aren't in a "1" line marker flag region.
1511     SourceLocation IncLoc = PLoc.getIncludeLoc();
1512     if (IncLoc.isInvalid() ||
1513         SM.getDecomposedExpansionLoc(IncLoc).first != CurFileID) {
1514       PP.Diag(FlagTok, diag::err_pp_linemarker_invalid_pop);
1515       PP.DiscardUntilEndOfDirective();
1516       return true;
1517     }
1518 
1519     PP.Lex(FlagTok);
1520     if (FlagTok.is(tok::eod)) return false;
1521     if (GetLineValue(FlagTok, FlagVal, diag::err_pp_linemarker_invalid_flag,PP))
1522       return true;
1523   }
1524 
1525   // We must have 3 if there are still flags.
1526   if (FlagVal != 3) {
1527     PP.Diag(FlagTok, diag::err_pp_linemarker_invalid_flag);
1528     PP.DiscardUntilEndOfDirective();
1529     return true;
1530   }
1531 
1532   FileKind = SrcMgr::C_System;
1533 
1534   PP.Lex(FlagTok);
1535   if (FlagTok.is(tok::eod)) return false;
1536   if (GetLineValue(FlagTok, FlagVal, diag::err_pp_linemarker_invalid_flag, PP))
1537     return true;
1538 
1539   // We must have 4 if there is yet another flag.
1540   if (FlagVal != 4) {
1541     PP.Diag(FlagTok, diag::err_pp_linemarker_invalid_flag);
1542     PP.DiscardUntilEndOfDirective();
1543     return true;
1544   }
1545 
1546   FileKind = SrcMgr::C_ExternCSystem;
1547 
1548   PP.Lex(FlagTok);
1549   if (FlagTok.is(tok::eod)) return false;
1550 
1551   // There are no more valid flags here.
1552   PP.Diag(FlagTok, diag::err_pp_linemarker_invalid_flag);
1553   PP.DiscardUntilEndOfDirective();
1554   return true;
1555 }
1556 
1557 /// HandleDigitDirective - Handle a GNU line marker directive, whose syntax is
1558 /// one of the following forms:
1559 ///
1560 ///     # 42
1561 ///     # 42 "file" ('1' | '2')?
1562 ///     # 42 "file" ('1' | '2')? '3' '4'?
1563 ///
1564 void Preprocessor::HandleDigitDirective(Token &DigitTok) {
1565   // Validate the number and convert it to an unsigned.  GNU does not have a
1566   // line # limit other than it fit in 32-bits.
1567   unsigned LineNo;
1568   if (GetLineValue(DigitTok, LineNo, diag::err_pp_linemarker_requires_integer,
1569                    *this, true))
1570     return;
1571 
1572   Token StrTok;
1573   Lex(StrTok);
1574 
1575   bool IsFileEntry = false, IsFileExit = false;
1576   int FilenameID = -1;
1577   SrcMgr::CharacteristicKind FileKind = SrcMgr::C_User;
1578 
1579   // If the StrTok is "eod", then it wasn't present.  Otherwise, it must be a
1580   // string followed by eod.
1581   if (StrTok.is(tok::eod)) {
1582     Diag(StrTok, diag::ext_pp_gnu_line_directive);
1583     // Treat this like "#line NN", which doesn't change file characteristics.
1584     FileKind = SourceMgr.getFileCharacteristic(DigitTok.getLocation());
1585   } else if (StrTok.isNot(tok::string_literal)) {
1586     Diag(StrTok, diag::err_pp_linemarker_invalid_filename);
1587     DiscardUntilEndOfDirective();
1588     return;
1589   } else if (StrTok.hasUDSuffix()) {
1590     Diag(StrTok, diag::err_invalid_string_udl);
1591     DiscardUntilEndOfDirective();
1592     return;
1593   } else {
1594     // Parse and validate the string, converting it into a unique ID.
1595     StringLiteralParser Literal(StrTok, *this);
1596     assert(Literal.isOrdinary() && "Didn't allow wide strings in");
1597     if (Literal.hadError) {
1598       DiscardUntilEndOfDirective();
1599       return;
1600     }
1601     if (Literal.Pascal) {
1602       Diag(StrTok, diag::err_pp_linemarker_invalid_filename);
1603       DiscardUntilEndOfDirective();
1604       return;
1605     }
1606 
1607     // If a filename was present, read any flags that are present.
1608     if (ReadLineMarkerFlags(IsFileEntry, IsFileExit, FileKind, *this))
1609       return;
1610     if (!SourceMgr.isWrittenInBuiltinFile(DigitTok.getLocation()) &&
1611         !SourceMgr.isWrittenInCommandLineFile(DigitTok.getLocation()))
1612       Diag(StrTok, diag::ext_pp_gnu_line_directive);
1613 
1614     // Exiting to an empty string means pop to the including file, so leave
1615     // FilenameID as -1 in that case.
1616     if (!(IsFileExit && Literal.GetString().empty()))
1617       FilenameID = SourceMgr.getLineTableFilenameID(Literal.GetString());
1618   }
1619 
1620   // Create a line note with this information.
1621   SourceMgr.AddLineNote(DigitTok.getLocation(), LineNo, FilenameID, IsFileEntry,
1622                         IsFileExit, FileKind);
1623 
1624   // If the preprocessor has callbacks installed, notify them of the #line
1625   // change.  This is used so that the line marker comes out in -E mode for
1626   // example.
1627   if (Callbacks) {
1628     PPCallbacks::FileChangeReason Reason = PPCallbacks::RenameFile;
1629     if (IsFileEntry)
1630       Reason = PPCallbacks::EnterFile;
1631     else if (IsFileExit)
1632       Reason = PPCallbacks::ExitFile;
1633 
1634     Callbacks->FileChanged(CurPPLexer->getSourceLocation(), Reason, FileKind);
1635   }
1636 }
1637 
1638 /// HandleUserDiagnosticDirective - Handle a #warning or #error directive.
1639 ///
1640 void Preprocessor::HandleUserDiagnosticDirective(Token &Tok,
1641                                                  bool isWarning) {
1642   // Read the rest of the line raw.  We do this because we don't want macros
1643   // to be expanded and we don't require that the tokens be valid preprocessing
1644   // tokens.  For example, this is allowed: "#warning `   'foo".  GCC does
1645   // collapse multiple consecutive white space between tokens, but this isn't
1646   // specified by the standard.
1647   SmallString<128> Message;
1648   CurLexer->ReadToEndOfLine(&Message);
1649 
1650   // Find the first non-whitespace character, so that we can make the
1651   // diagnostic more succinct.
1652   StringRef Msg = Message.str().ltrim(' ');
1653 
1654   if (isWarning)
1655     Diag(Tok, diag::pp_hash_warning) << Msg;
1656   else
1657     Diag(Tok, diag::err_pp_hash_error) << Msg;
1658 }
1659 
1660 /// HandleIdentSCCSDirective - Handle a #ident/#sccs directive.
1661 ///
1662 void Preprocessor::HandleIdentSCCSDirective(Token &Tok) {
1663   // Yes, this directive is an extension.
1664   Diag(Tok, diag::ext_pp_ident_directive);
1665 
1666   // Read the string argument.
1667   Token StrTok;
1668   Lex(StrTok);
1669 
1670   // If the token kind isn't a string, it's a malformed directive.
1671   if (StrTok.isNot(tok::string_literal) &&
1672       StrTok.isNot(tok::wide_string_literal)) {
1673     Diag(StrTok, diag::err_pp_malformed_ident);
1674     if (StrTok.isNot(tok::eod))
1675       DiscardUntilEndOfDirective();
1676     return;
1677   }
1678 
1679   if (StrTok.hasUDSuffix()) {
1680     Diag(StrTok, diag::err_invalid_string_udl);
1681     DiscardUntilEndOfDirective();
1682     return;
1683   }
1684 
1685   // Verify that there is nothing after the string, other than EOD.
1686   CheckEndOfDirective("ident");
1687 
1688   if (Callbacks) {
1689     bool Invalid = false;
1690     std::string Str = getSpelling(StrTok, &Invalid);
1691     if (!Invalid)
1692       Callbacks->Ident(Tok.getLocation(), Str);
1693   }
1694 }
1695 
1696 /// Handle a #public directive.
1697 void Preprocessor::HandleMacroPublicDirective(Token &Tok) {
1698   Token MacroNameTok;
1699   ReadMacroName(MacroNameTok, MU_Undef);
1700 
1701   // Error reading macro name?  If so, diagnostic already issued.
1702   if (MacroNameTok.is(tok::eod))
1703     return;
1704 
1705   // Check to see if this is the last token on the #__public_macro line.
1706   CheckEndOfDirective("__public_macro");
1707 
1708   IdentifierInfo *II = MacroNameTok.getIdentifierInfo();
1709   // Okay, we finally have a valid identifier to undef.
1710   MacroDirective *MD = getLocalMacroDirective(II);
1711 
1712   // If the macro is not defined, this is an error.
1713   if (!MD) {
1714     Diag(MacroNameTok, diag::err_pp_visibility_non_macro) << II;
1715     return;
1716   }
1717 
1718   // Note that this macro has now been exported.
1719   appendMacroDirective(II, AllocateVisibilityMacroDirective(
1720                                 MacroNameTok.getLocation(), /*isPublic=*/true));
1721 }
1722 
1723 /// Handle a #private directive.
1724 void Preprocessor::HandleMacroPrivateDirective() {
1725   Token MacroNameTok;
1726   ReadMacroName(MacroNameTok, MU_Undef);
1727 
1728   // Error reading macro name?  If so, diagnostic already issued.
1729   if (MacroNameTok.is(tok::eod))
1730     return;
1731 
1732   // Check to see if this is the last token on the #__private_macro line.
1733   CheckEndOfDirective("__private_macro");
1734 
1735   IdentifierInfo *II = MacroNameTok.getIdentifierInfo();
1736   // Okay, we finally have a valid identifier to undef.
1737   MacroDirective *MD = getLocalMacroDirective(II);
1738 
1739   // If the macro is not defined, this is an error.
1740   if (!MD) {
1741     Diag(MacroNameTok, diag::err_pp_visibility_non_macro) << II;
1742     return;
1743   }
1744 
1745   // Note that this macro has now been marked private.
1746   appendMacroDirective(II, AllocateVisibilityMacroDirective(
1747                                MacroNameTok.getLocation(), /*isPublic=*/false));
1748 }
1749 
1750 //===----------------------------------------------------------------------===//
1751 // Preprocessor Include Directive Handling.
1752 //===----------------------------------------------------------------------===//
1753 
1754 /// GetIncludeFilenameSpelling - Turn the specified lexer token into a fully
1755 /// checked and spelled filename, e.g. as an operand of \#include. This returns
1756 /// true if the input filename was in <>'s or false if it were in ""'s.  The
1757 /// caller is expected to provide a buffer that is large enough to hold the
1758 /// spelling of the filename, but is also expected to handle the case when
1759 /// this method decides to use a different buffer.
1760 bool Preprocessor::GetIncludeFilenameSpelling(SourceLocation Loc,
1761                                               StringRef &Buffer) {
1762   // Get the text form of the filename.
1763   assert(!Buffer.empty() && "Can't have tokens with empty spellings!");
1764 
1765   // FIXME: Consider warning on some of the cases described in C11 6.4.7/3 and
1766   // C++20 [lex.header]/2:
1767   //
1768   // If `"`, `'`, `\`, `/*`, or `//` appears in a header-name, then
1769   //   in C: behavior is undefined
1770   //   in C++: program is conditionally-supported with implementation-defined
1771   //           semantics
1772 
1773   // Make sure the filename is <x> or "x".
1774   bool isAngled;
1775   if (Buffer[0] == '<') {
1776     if (Buffer.back() != '>') {
1777       Diag(Loc, diag::err_pp_expects_filename);
1778       Buffer = StringRef();
1779       return true;
1780     }
1781     isAngled = true;
1782   } else if (Buffer[0] == '"') {
1783     if (Buffer.back() != '"') {
1784       Diag(Loc, diag::err_pp_expects_filename);
1785       Buffer = StringRef();
1786       return true;
1787     }
1788     isAngled = false;
1789   } else {
1790     Diag(Loc, diag::err_pp_expects_filename);
1791     Buffer = StringRef();
1792     return true;
1793   }
1794 
1795   // Diagnose #include "" as invalid.
1796   if (Buffer.size() <= 2) {
1797     Diag(Loc, diag::err_pp_empty_filename);
1798     Buffer = StringRef();
1799     return true;
1800   }
1801 
1802   // Skip the brackets.
1803   Buffer = Buffer.substr(1, Buffer.size()-2);
1804   return isAngled;
1805 }
1806 
1807 /// Push a token onto the token stream containing an annotation.
1808 void Preprocessor::EnterAnnotationToken(SourceRange Range,
1809                                         tok::TokenKind Kind,
1810                                         void *AnnotationVal) {
1811   // FIXME: Produce this as the current token directly, rather than
1812   // allocating a new token for it.
1813   auto Tok = std::make_unique<Token[]>(1);
1814   Tok[0].startToken();
1815   Tok[0].setKind(Kind);
1816   Tok[0].setLocation(Range.getBegin());
1817   Tok[0].setAnnotationEndLoc(Range.getEnd());
1818   Tok[0].setAnnotationValue(AnnotationVal);
1819   EnterTokenStream(std::move(Tok), 1, true, /*IsReinject*/ false);
1820 }
1821 
1822 /// Produce a diagnostic informing the user that a #include or similar
1823 /// was implicitly treated as a module import.
1824 static void diagnoseAutoModuleImport(
1825     Preprocessor &PP, SourceLocation HashLoc, Token &IncludeTok,
1826     ArrayRef<std::pair<IdentifierInfo *, SourceLocation>> Path,
1827     SourceLocation PathEnd) {
1828   SmallString<128> PathString;
1829   for (size_t I = 0, N = Path.size(); I != N; ++I) {
1830     if (I)
1831       PathString += '.';
1832     PathString += Path[I].first->getName();
1833   }
1834 
1835   int IncludeKind = 0;
1836   switch (IncludeTok.getIdentifierInfo()->getPPKeywordID()) {
1837   case tok::pp_include:
1838     IncludeKind = 0;
1839     break;
1840 
1841   case tok::pp_import:
1842     IncludeKind = 1;
1843     break;
1844 
1845   case tok::pp_include_next:
1846     IncludeKind = 2;
1847     break;
1848 
1849   case tok::pp___include_macros:
1850     IncludeKind = 3;
1851     break;
1852 
1853   default:
1854     llvm_unreachable("unknown include directive kind");
1855   }
1856 
1857   PP.Diag(HashLoc, diag::remark_pp_include_directive_modular_translation)
1858       << IncludeKind << PathString;
1859 }
1860 
1861 // Given a vector of path components and a string containing the real
1862 // path to the file, build a properly-cased replacement in the vector,
1863 // and return true if the replacement should be suggested.
1864 static bool trySimplifyPath(SmallVectorImpl<StringRef> &Components,
1865                             StringRef RealPathName) {
1866   auto RealPathComponentIter = llvm::sys::path::rbegin(RealPathName);
1867   auto RealPathComponentEnd = llvm::sys::path::rend(RealPathName);
1868   int Cnt = 0;
1869   bool SuggestReplacement = false;
1870   // Below is a best-effort to handle ".." in paths. It is admittedly
1871   // not 100% correct in the presence of symlinks.
1872   for (auto &Component : llvm::reverse(Components)) {
1873     if ("." == Component) {
1874     } else if (".." == Component) {
1875       ++Cnt;
1876     } else if (Cnt) {
1877       --Cnt;
1878     } else if (RealPathComponentIter != RealPathComponentEnd) {
1879       if (Component != *RealPathComponentIter) {
1880         // If these path components differ by more than just case, then we
1881         // may be looking at symlinked paths. Bail on this diagnostic to avoid
1882         // noisy false positives.
1883         SuggestReplacement =
1884             RealPathComponentIter->equals_insensitive(Component);
1885         if (!SuggestReplacement)
1886           break;
1887         Component = *RealPathComponentIter;
1888       }
1889       ++RealPathComponentIter;
1890     }
1891   }
1892   return SuggestReplacement;
1893 }
1894 
1895 bool Preprocessor::checkModuleIsAvailable(const LangOptions &LangOpts,
1896                                           const TargetInfo &TargetInfo,
1897                                           DiagnosticsEngine &Diags, Module *M) {
1898   Module::Requirement Requirement;
1899   Module::UnresolvedHeaderDirective MissingHeader;
1900   Module *ShadowingModule = nullptr;
1901   if (M->isAvailable(LangOpts, TargetInfo, Requirement, MissingHeader,
1902                      ShadowingModule))
1903     return false;
1904 
1905   if (MissingHeader.FileNameLoc.isValid()) {
1906     Diags.Report(MissingHeader.FileNameLoc, diag::err_module_header_missing)
1907         << MissingHeader.IsUmbrella << MissingHeader.FileName;
1908   } else if (ShadowingModule) {
1909     Diags.Report(M->DefinitionLoc, diag::err_module_shadowed) << M->Name;
1910     Diags.Report(ShadowingModule->DefinitionLoc,
1911                  diag::note_previous_definition);
1912   } else {
1913     // FIXME: Track the location at which the requirement was specified, and
1914     // use it here.
1915     Diags.Report(M->DefinitionLoc, diag::err_module_unavailable)
1916         << M->getFullModuleName() << Requirement.second << Requirement.first;
1917   }
1918   return true;
1919 }
1920 
1921 std::pair<ConstSearchDirIterator, const FileEntry *>
1922 Preprocessor::getIncludeNextStart(const Token &IncludeNextTok) const {
1923   // #include_next is like #include, except that we start searching after
1924   // the current found directory.  If we can't do this, issue a
1925   // diagnostic.
1926   ConstSearchDirIterator Lookup = CurDirLookup;
1927   const FileEntry *LookupFromFile = nullptr;
1928 
1929   if (isInPrimaryFile() && LangOpts.IsHeaderFile) {
1930     // If the main file is a header, then it's either for PCH/AST generation,
1931     // or libclang opened it. Either way, handle it as a normal include below
1932     // and do not complain about include_next.
1933   } else if (isInPrimaryFile()) {
1934     Lookup = nullptr;
1935     Diag(IncludeNextTok, diag::pp_include_next_in_primary);
1936   } else if (CurLexerSubmodule) {
1937     // Start looking up in the directory *after* the one in which the current
1938     // file would be found, if any.
1939     assert(CurPPLexer && "#include_next directive in macro?");
1940     LookupFromFile = CurPPLexer->getFileEntry();
1941     Lookup = nullptr;
1942   } else if (!Lookup) {
1943     // The current file was not found by walking the include path. Either it
1944     // is the primary file (handled above), or it was found by absolute path,
1945     // or it was found relative to such a file.
1946     // FIXME: Track enough information so we know which case we're in.
1947     Diag(IncludeNextTok, diag::pp_include_next_absolute_path);
1948   } else {
1949     // Start looking up in the next directory.
1950     ++Lookup;
1951   }
1952 
1953   return {Lookup, LookupFromFile};
1954 }
1955 
1956 /// HandleIncludeDirective - The "\#include" tokens have just been read, read
1957 /// the file to be included from the lexer, then include it!  This is a common
1958 /// routine with functionality shared between \#include, \#include_next and
1959 /// \#import.  LookupFrom is set when this is a \#include_next directive, it
1960 /// specifies the file to start searching from.
1961 void Preprocessor::HandleIncludeDirective(SourceLocation HashLoc,
1962                                           Token &IncludeTok,
1963                                           ConstSearchDirIterator LookupFrom,
1964                                           const FileEntry *LookupFromFile) {
1965   Token FilenameTok;
1966   if (LexHeaderName(FilenameTok))
1967     return;
1968 
1969   if (FilenameTok.isNot(tok::header_name)) {
1970     Diag(FilenameTok.getLocation(), diag::err_pp_expects_filename);
1971     if (FilenameTok.isNot(tok::eod))
1972       DiscardUntilEndOfDirective();
1973     return;
1974   }
1975 
1976   // Verify that there is nothing after the filename, other than EOD.  Note
1977   // that we allow macros that expand to nothing after the filename, because
1978   // this falls into the category of "#include pp-tokens new-line" specified
1979   // in C99 6.10.2p4.
1980   SourceLocation EndLoc =
1981       CheckEndOfDirective(IncludeTok.getIdentifierInfo()->getNameStart(), true);
1982 
1983   auto Action = HandleHeaderIncludeOrImport(HashLoc, IncludeTok, FilenameTok,
1984                                             EndLoc, LookupFrom, LookupFromFile);
1985   switch (Action.Kind) {
1986   case ImportAction::None:
1987   case ImportAction::SkippedModuleImport:
1988     break;
1989   case ImportAction::ModuleBegin:
1990     EnterAnnotationToken(SourceRange(HashLoc, EndLoc),
1991                          tok::annot_module_begin, Action.ModuleForHeader);
1992     break;
1993   case ImportAction::HeaderUnitImport:
1994     EnterAnnotationToken(SourceRange(HashLoc, EndLoc), tok::annot_header_unit,
1995                          Action.ModuleForHeader);
1996     break;
1997   case ImportAction::ModuleImport:
1998     EnterAnnotationToken(SourceRange(HashLoc, EndLoc),
1999                          tok::annot_module_include, Action.ModuleForHeader);
2000     break;
2001   case ImportAction::Failure:
2002     assert(TheModuleLoader.HadFatalFailure &&
2003            "This should be an early exit only to a fatal error");
2004     TheModuleLoader.HadFatalFailure = true;
2005     IncludeTok.setKind(tok::eof);
2006     CurLexer->cutOffLexing();
2007     return;
2008   }
2009 }
2010 
2011 OptionalFileEntryRef Preprocessor::LookupHeaderIncludeOrImport(
2012     ConstSearchDirIterator *CurDir, StringRef &Filename,
2013     SourceLocation FilenameLoc, CharSourceRange FilenameRange,
2014     const Token &FilenameTok, bool &IsFrameworkFound, bool IsImportDecl,
2015     bool &IsMapped, ConstSearchDirIterator LookupFrom,
2016     const FileEntry *LookupFromFile, StringRef &LookupFilename,
2017     SmallVectorImpl<char> &RelativePath, SmallVectorImpl<char> &SearchPath,
2018     ModuleMap::KnownHeader &SuggestedModule, bool isAngled) {
2019   OptionalFileEntryRef File = LookupFile(
2020       FilenameLoc, LookupFilename, isAngled, LookupFrom, LookupFromFile, CurDir,
2021       Callbacks ? &SearchPath : nullptr, Callbacks ? &RelativePath : nullptr,
2022       &SuggestedModule, &IsMapped, &IsFrameworkFound);
2023   if (File)
2024     return File;
2025 
2026   // Give the clients a chance to silently skip this include.
2027   if (Callbacks && Callbacks->FileNotFound(Filename))
2028     return std::nullopt;
2029 
2030   if (SuppressIncludeNotFoundError)
2031     return std::nullopt;
2032 
2033   // If the file could not be located and it was included via angle
2034   // brackets, we can attempt a lookup as though it were a quoted path to
2035   // provide the user with a possible fixit.
2036   if (isAngled) {
2037     OptionalFileEntryRef File = LookupFile(
2038         FilenameLoc, LookupFilename, false, LookupFrom, LookupFromFile, CurDir,
2039         Callbacks ? &SearchPath : nullptr, Callbacks ? &RelativePath : nullptr,
2040         &SuggestedModule, &IsMapped,
2041         /*IsFrameworkFound=*/nullptr);
2042     if (File) {
2043       Diag(FilenameTok, diag::err_pp_file_not_found_angled_include_not_fatal)
2044           << Filename << IsImportDecl
2045           << FixItHint::CreateReplacement(FilenameRange,
2046                                           "\"" + Filename.str() + "\"");
2047       return File;
2048     }
2049   }
2050 
2051   // Check for likely typos due to leading or trailing non-isAlphanumeric
2052   // characters
2053   StringRef OriginalFilename = Filename;
2054   if (LangOpts.SpellChecking) {
2055     // A heuristic to correct a typo file name by removing leading and
2056     // trailing non-isAlphanumeric characters.
2057     auto CorrectTypoFilename = [](llvm::StringRef Filename) {
2058       Filename = Filename.drop_until(isAlphanumeric);
2059       while (!Filename.empty() && !isAlphanumeric(Filename.back())) {
2060         Filename = Filename.drop_back();
2061       }
2062       return Filename;
2063     };
2064     StringRef TypoCorrectionName = CorrectTypoFilename(Filename);
2065     StringRef TypoCorrectionLookupName = CorrectTypoFilename(LookupFilename);
2066 
2067     OptionalFileEntryRef File = LookupFile(
2068         FilenameLoc, TypoCorrectionLookupName, isAngled, LookupFrom,
2069         LookupFromFile, CurDir, Callbacks ? &SearchPath : nullptr,
2070         Callbacks ? &RelativePath : nullptr, &SuggestedModule, &IsMapped,
2071         /*IsFrameworkFound=*/nullptr);
2072     if (File) {
2073       auto Hint =
2074           isAngled ? FixItHint::CreateReplacement(
2075                          FilenameRange, "<" + TypoCorrectionName.str() + ">")
2076                    : FixItHint::CreateReplacement(
2077                          FilenameRange, "\"" + TypoCorrectionName.str() + "\"");
2078       Diag(FilenameTok, diag::err_pp_file_not_found_typo_not_fatal)
2079           << OriginalFilename << TypoCorrectionName << Hint;
2080       // We found the file, so set the Filename to the name after typo
2081       // correction.
2082       Filename = TypoCorrectionName;
2083       LookupFilename = TypoCorrectionLookupName;
2084       return File;
2085     }
2086   }
2087 
2088   // If the file is still not found, just go with the vanilla diagnostic
2089   assert(!File && "expected missing file");
2090   Diag(FilenameTok, diag::err_pp_file_not_found)
2091       << OriginalFilename << FilenameRange;
2092   if (IsFrameworkFound) {
2093     size_t SlashPos = OriginalFilename.find('/');
2094     assert(SlashPos != StringRef::npos &&
2095            "Include with framework name should have '/' in the filename");
2096     StringRef FrameworkName = OriginalFilename.substr(0, SlashPos);
2097     FrameworkCacheEntry &CacheEntry =
2098         HeaderInfo.LookupFrameworkCache(FrameworkName);
2099     assert(CacheEntry.Directory && "Found framework should be in cache");
2100     Diag(FilenameTok, diag::note_pp_framework_without_header)
2101         << OriginalFilename.substr(SlashPos + 1) << FrameworkName
2102         << CacheEntry.Directory->getName();
2103   }
2104 
2105   return std::nullopt;
2106 }
2107 
2108 /// Handle either a #include-like directive or an import declaration that names
2109 /// a header file.
2110 ///
2111 /// \param HashLoc The location of the '#' token for an include, or
2112 ///        SourceLocation() for an import declaration.
2113 /// \param IncludeTok The include / include_next / import token.
2114 /// \param FilenameTok The header-name token.
2115 /// \param EndLoc The location at which any imported macros become visible.
2116 /// \param LookupFrom For #include_next, the starting directory for the
2117 ///        directory lookup.
2118 /// \param LookupFromFile For #include_next, the starting file for the directory
2119 ///        lookup.
2120 Preprocessor::ImportAction Preprocessor::HandleHeaderIncludeOrImport(
2121     SourceLocation HashLoc, Token &IncludeTok, Token &FilenameTok,
2122     SourceLocation EndLoc, ConstSearchDirIterator LookupFrom,
2123     const FileEntry *LookupFromFile) {
2124   SmallString<128> FilenameBuffer;
2125   StringRef Filename = getSpelling(FilenameTok, FilenameBuffer);
2126   SourceLocation CharEnd = FilenameTok.getEndLoc();
2127 
2128   CharSourceRange FilenameRange
2129     = CharSourceRange::getCharRange(FilenameTok.getLocation(), CharEnd);
2130   StringRef OriginalFilename = Filename;
2131   bool isAngled =
2132     GetIncludeFilenameSpelling(FilenameTok.getLocation(), Filename);
2133 
2134   // If GetIncludeFilenameSpelling set the start ptr to null, there was an
2135   // error.
2136   if (Filename.empty())
2137     return {ImportAction::None};
2138 
2139   bool IsImportDecl = HashLoc.isInvalid();
2140   SourceLocation StartLoc = IsImportDecl ? IncludeTok.getLocation() : HashLoc;
2141 
2142   // Complain about attempts to #include files in an audit pragma.
2143   if (PragmaARCCFCodeAuditedInfo.second.isValid()) {
2144     Diag(StartLoc, diag::err_pp_include_in_arc_cf_code_audited) << IsImportDecl;
2145     Diag(PragmaARCCFCodeAuditedInfo.second, diag::note_pragma_entered_here);
2146 
2147     // Immediately leave the pragma.
2148     PragmaARCCFCodeAuditedInfo = {nullptr, SourceLocation()};
2149   }
2150 
2151   // Complain about attempts to #include files in an assume-nonnull pragma.
2152   if (PragmaAssumeNonNullLoc.isValid()) {
2153     Diag(StartLoc, diag::err_pp_include_in_assume_nonnull) << IsImportDecl;
2154     Diag(PragmaAssumeNonNullLoc, diag::note_pragma_entered_here);
2155 
2156     // Immediately leave the pragma.
2157     PragmaAssumeNonNullLoc = SourceLocation();
2158   }
2159 
2160   if (HeaderInfo.HasIncludeAliasMap()) {
2161     // Map the filename with the brackets still attached.  If the name doesn't
2162     // map to anything, fall back on the filename we've already gotten the
2163     // spelling for.
2164     StringRef NewName = HeaderInfo.MapHeaderToIncludeAlias(OriginalFilename);
2165     if (!NewName.empty())
2166       Filename = NewName;
2167   }
2168 
2169   // Search include directories.
2170   bool IsMapped = false;
2171   bool IsFrameworkFound = false;
2172   ConstSearchDirIterator CurDir = nullptr;
2173   SmallString<1024> SearchPath;
2174   SmallString<1024> RelativePath;
2175   // We get the raw path only if we have 'Callbacks' to which we later pass
2176   // the path.
2177   ModuleMap::KnownHeader SuggestedModule;
2178   SourceLocation FilenameLoc = FilenameTok.getLocation();
2179   StringRef LookupFilename = Filename;
2180 
2181   // Normalize slashes when compiling with -fms-extensions on non-Windows. This
2182   // is unnecessary on Windows since the filesystem there handles backslashes.
2183   SmallString<128> NormalizedPath;
2184   llvm::sys::path::Style BackslashStyle = llvm::sys::path::Style::native;
2185   if (is_style_posix(BackslashStyle) && LangOpts.MicrosoftExt) {
2186     NormalizedPath = Filename.str();
2187     llvm::sys::path::native(NormalizedPath);
2188     LookupFilename = NormalizedPath;
2189     BackslashStyle = llvm::sys::path::Style::windows;
2190   }
2191 
2192   OptionalFileEntryRef File = LookupHeaderIncludeOrImport(
2193       &CurDir, Filename, FilenameLoc, FilenameRange, FilenameTok,
2194       IsFrameworkFound, IsImportDecl, IsMapped, LookupFrom, LookupFromFile,
2195       LookupFilename, RelativePath, SearchPath, SuggestedModule, isAngled);
2196 
2197   if (usingPCHWithThroughHeader() && SkippingUntilPCHThroughHeader) {
2198     if (File && isPCHThroughHeader(&File->getFileEntry()))
2199       SkippingUntilPCHThroughHeader = false;
2200     return {ImportAction::None};
2201   }
2202 
2203   // Should we enter the source file? Set to Skip if either the source file is
2204   // known to have no effect beyond its effect on module visibility -- that is,
2205   // if it's got an include guard that is already defined, set to Import if it
2206   // is a modular header we've already built and should import.
2207 
2208   // For C++20 Modules
2209   // [cpp.include]/7 If the header identified by the header-name denotes an
2210   // importable header, it is implementation-defined whether the #include
2211   // preprocessing directive is instead replaced by an import directive.
2212   // For this implementation, the translation is permitted when we are parsing
2213   // the Global Module Fragment, and not otherwise (the cases where it would be
2214   // valid to replace an include with an import are highly constrained once in
2215   // named module purview; this choice avoids considerable complexity in
2216   // determining valid cases).
2217 
2218   enum { Enter, Import, Skip, IncludeLimitReached } Action = Enter;
2219 
2220   if (PPOpts->SingleFileParseMode)
2221     Action = IncludeLimitReached;
2222 
2223   // If we've reached the max allowed include depth, it is usually due to an
2224   // include cycle. Don't enter already processed files again as it can lead to
2225   // reaching the max allowed include depth again.
2226   if (Action == Enter && HasReachedMaxIncludeDepth && File &&
2227       alreadyIncluded(*File))
2228     Action = IncludeLimitReached;
2229 
2230   // FIXME: We do not have a good way to disambiguate C++ clang modules from
2231   // C++ standard modules (other than use/non-use of Header Units).
2232   Module *SM = SuggestedModule.getModule();
2233 
2234   bool MaybeTranslateInclude =
2235       Action == Enter && File && SM && !SM->isForBuilding(getLangOpts());
2236 
2237   // Maybe a usable Header Unit
2238   bool UsableHeaderUnit = false;
2239   if (getLangOpts().CPlusPlusModules && SM && SM->isHeaderUnit()) {
2240     if (TrackGMFState.inGMF() || IsImportDecl)
2241       UsableHeaderUnit = true;
2242     else if (!IsImportDecl) {
2243       // This is a Header Unit that we do not include-translate
2244       SuggestedModule = ModuleMap::KnownHeader();
2245       SM = nullptr;
2246     }
2247   }
2248   // Maybe a usable clang header module.
2249   bool UsableClangHeaderModule =
2250       (getLangOpts().CPlusPlusModules || getLangOpts().Modules) && SM &&
2251       !SM->isHeaderUnit();
2252 
2253   // Determine whether we should try to import the module for this #include, if
2254   // there is one. Don't do so if precompiled module support is disabled or we
2255   // are processing this module textually (because we're building the module).
2256   if (MaybeTranslateInclude && (UsableHeaderUnit || UsableClangHeaderModule)) {
2257     // If this include corresponds to a module but that module is
2258     // unavailable, diagnose the situation and bail out.
2259     // FIXME: Remove this; loadModule does the same check (but produces
2260     // slightly worse diagnostics).
2261     if (checkModuleIsAvailable(getLangOpts(), getTargetInfo(), getDiagnostics(),
2262                                SuggestedModule.getModule())) {
2263       Diag(FilenameTok.getLocation(),
2264            diag::note_implicit_top_level_module_import_here)
2265           << SuggestedModule.getModule()->getTopLevelModuleName();
2266       return {ImportAction::None};
2267     }
2268 
2269     // Compute the module access path corresponding to this module.
2270     // FIXME: Should we have a second loadModule() overload to avoid this
2271     // extra lookup step?
2272     SmallVector<std::pair<IdentifierInfo *, SourceLocation>, 2> Path;
2273     for (Module *Mod = SM; Mod; Mod = Mod->Parent)
2274       Path.push_back(std::make_pair(getIdentifierInfo(Mod->Name),
2275                                     FilenameTok.getLocation()));
2276     std::reverse(Path.begin(), Path.end());
2277 
2278     // Warn that we're replacing the include/import with a module import.
2279     if (!IsImportDecl)
2280       diagnoseAutoModuleImport(*this, StartLoc, IncludeTok, Path, CharEnd);
2281 
2282     // Load the module to import its macros. We'll make the declarations
2283     // visible when the parser gets here.
2284     // FIXME: Pass SuggestedModule in here rather than converting it to a path
2285     // and making the module loader convert it back again.
2286     ModuleLoadResult Imported = TheModuleLoader.loadModule(
2287         IncludeTok.getLocation(), Path, Module::Hidden,
2288         /*IsInclusionDirective=*/true);
2289     assert((Imported == nullptr || Imported == SuggestedModule.getModule()) &&
2290            "the imported module is different than the suggested one");
2291 
2292     if (Imported) {
2293       Action = Import;
2294     } else if (Imported.isMissingExpected()) {
2295       markClangModuleAsAffecting(
2296           static_cast<Module *>(Imported)->getTopLevelModule());
2297       // We failed to find a submodule that we assumed would exist (because it
2298       // was in the directory of an umbrella header, for instance), but no
2299       // actual module containing it exists (because the umbrella header is
2300       // incomplete).  Treat this as a textual inclusion.
2301       SuggestedModule = ModuleMap::KnownHeader();
2302       SM = nullptr;
2303     } else if (Imported.isConfigMismatch()) {
2304       // On a configuration mismatch, enter the header textually. We still know
2305       // that it's part of the corresponding module.
2306     } else {
2307       // We hit an error processing the import. Bail out.
2308       if (hadModuleLoaderFatalFailure()) {
2309         // With a fatal failure in the module loader, we abort parsing.
2310         Token &Result = IncludeTok;
2311         assert(CurLexer && "#include but no current lexer set!");
2312         Result.startToken();
2313         CurLexer->FormTokenWithChars(Result, CurLexer->BufferEnd, tok::eof);
2314         CurLexer->cutOffLexing();
2315       }
2316       return {ImportAction::None};
2317     }
2318   }
2319 
2320   // The #included file will be considered to be a system header if either it is
2321   // in a system include directory, or if the #includer is a system include
2322   // header.
2323   SrcMgr::CharacteristicKind FileCharacter =
2324       SourceMgr.getFileCharacteristic(FilenameTok.getLocation());
2325   if (File)
2326     FileCharacter = std::max(HeaderInfo.getFileDirFlavor(&File->getFileEntry()),
2327                              FileCharacter);
2328 
2329   // If this is a '#import' or an import-declaration, don't re-enter the file.
2330   //
2331   // FIXME: If we have a suggested module for a '#include', and we've already
2332   // visited this file, don't bother entering it again. We know it has no
2333   // further effect.
2334   bool EnterOnce =
2335       IsImportDecl ||
2336       IncludeTok.getIdentifierInfo()->getPPKeywordID() == tok::pp_import;
2337 
2338   bool IsFirstIncludeOfFile = false;
2339 
2340   // Ask HeaderInfo if we should enter this #include file.  If not, #including
2341   // this file will have no effect.
2342   if (Action == Enter && File &&
2343       !HeaderInfo.ShouldEnterIncludeFile(*this, &File->getFileEntry(),
2344                                          EnterOnce, getLangOpts().Modules, SM,
2345                                          IsFirstIncludeOfFile)) {
2346     // C++ standard modules:
2347     // If we are not in the GMF, then we textually include only
2348     // clang modules:
2349     // Even if we've already preprocessed this header once and know that we
2350     // don't need to see its contents again, we still need to import it if it's
2351     // modular because we might not have imported it from this submodule before.
2352     //
2353     // FIXME: We don't do this when compiling a PCH because the AST
2354     // serialization layer can't cope with it. This means we get local
2355     // submodule visibility semantics wrong in that case.
2356     if (UsableHeaderUnit && !getLangOpts().CompilingPCH)
2357       Action = TrackGMFState.inGMF() ? Import : Skip;
2358     else
2359       Action = (SuggestedModule && !getLangOpts().CompilingPCH) ? Import : Skip;
2360   }
2361 
2362   // Check for circular inclusion of the main file.
2363   // We can't generate a consistent preamble with regard to the conditional
2364   // stack if the main file is included again as due to the preamble bounds
2365   // some directives (e.g. #endif of a header guard) will never be seen.
2366   // Since this will lead to confusing errors, avoid the inclusion.
2367   if (Action == Enter && File && PreambleConditionalStack.isRecording() &&
2368       SourceMgr.isMainFile(File->getFileEntry())) {
2369     Diag(FilenameTok.getLocation(),
2370          diag::err_pp_including_mainfile_in_preamble);
2371     return {ImportAction::None};
2372   }
2373 
2374   if (Callbacks && !IsImportDecl) {
2375     // Notify the callback object that we've seen an inclusion directive.
2376     // FIXME: Use a different callback for a pp-import?
2377     Callbacks->InclusionDirective(HashLoc, IncludeTok, LookupFilename, isAngled,
2378                                   FilenameRange, File, SearchPath, RelativePath,
2379                                   Action == Import ? SuggestedModule.getModule()
2380                                                    : nullptr,
2381                                   FileCharacter);
2382     if (Action == Skip && File)
2383       Callbacks->FileSkipped(*File, FilenameTok, FileCharacter);
2384   }
2385 
2386   if (!File)
2387     return {ImportAction::None};
2388 
2389   // If this is a C++20 pp-import declaration, diagnose if we didn't find any
2390   // module corresponding to the named header.
2391   if (IsImportDecl && !SuggestedModule) {
2392     Diag(FilenameTok, diag::err_header_import_not_header_unit)
2393       << OriginalFilename << File->getName();
2394     return {ImportAction::None};
2395   }
2396 
2397   // Issue a diagnostic if the name of the file on disk has a different case
2398   // than the one we're about to open.
2399   const bool CheckIncludePathPortability =
2400       !IsMapped && !File->getFileEntry().tryGetRealPathName().empty();
2401 
2402   if (CheckIncludePathPortability) {
2403     StringRef Name = LookupFilename;
2404     StringRef NameWithoriginalSlashes = Filename;
2405 #if defined(_WIN32)
2406     // Skip UNC prefix if present. (tryGetRealPathName() always
2407     // returns a path with the prefix skipped.)
2408     bool NameWasUNC = Name.consume_front("\\\\?\\");
2409     NameWithoriginalSlashes.consume_front("\\\\?\\");
2410 #endif
2411     StringRef RealPathName = File->getFileEntry().tryGetRealPathName();
2412     SmallVector<StringRef, 16> Components(llvm::sys::path::begin(Name),
2413                                           llvm::sys::path::end(Name));
2414 #if defined(_WIN32)
2415     // -Wnonportable-include-path is designed to diagnose includes using
2416     // case even on systems with a case-insensitive file system.
2417     // On Windows, RealPathName always starts with an upper-case drive
2418     // letter for absolute paths, but Name might start with either
2419     // case depending on if `cd c:\foo` or `cd C:\foo` was used in the shell.
2420     // ("foo" will always have on-disk case, no matter which case was
2421     // used in the cd command). To not emit this warning solely for
2422     // the drive letter, whose case is dependent on if `cd` is used
2423     // with upper- or lower-case drive letters, always consider the
2424     // given drive letter case as correct for the purpose of this warning.
2425     SmallString<128> FixedDriveRealPath;
2426     if (llvm::sys::path::is_absolute(Name) &&
2427         llvm::sys::path::is_absolute(RealPathName) &&
2428         toLowercase(Name[0]) == toLowercase(RealPathName[0]) &&
2429         isLowercase(Name[0]) != isLowercase(RealPathName[0])) {
2430       assert(Components.size() >= 3 && "should have drive, backslash, name");
2431       assert(Components[0].size() == 2 && "should start with drive");
2432       assert(Components[0][1] == ':' && "should have colon");
2433       FixedDriveRealPath = (Name.substr(0, 1) + RealPathName.substr(1)).str();
2434       RealPathName = FixedDriveRealPath;
2435     }
2436 #endif
2437 
2438     if (trySimplifyPath(Components, RealPathName)) {
2439       SmallString<128> Path;
2440       Path.reserve(Name.size()+2);
2441       Path.push_back(isAngled ? '<' : '"');
2442 
2443       const auto IsSep = [BackslashStyle](char c) {
2444         return llvm::sys::path::is_separator(c, BackslashStyle);
2445       };
2446 
2447       for (auto Component : Components) {
2448         // On POSIX, Components will contain a single '/' as first element
2449         // exactly if Name is an absolute path.
2450         // On Windows, it will contain "C:" followed by '\' for absolute paths.
2451         // The drive letter is optional for absolute paths on Windows, but
2452         // clang currently cannot process absolute paths in #include lines that
2453         // don't have a drive.
2454         // If the first entry in Components is a directory separator,
2455         // then the code at the bottom of this loop that keeps the original
2456         // directory separator style copies it. If the second entry is
2457         // a directory separator (the C:\ case), then that separator already
2458         // got copied when the C: was processed and we want to skip that entry.
2459         if (!(Component.size() == 1 && IsSep(Component[0])))
2460           Path.append(Component);
2461         else if (!Path.empty())
2462           continue;
2463 
2464         // Append the separator(s) the user used, or the close quote
2465         if (Path.size() > NameWithoriginalSlashes.size()) {
2466           Path.push_back(isAngled ? '>' : '"');
2467           continue;
2468         }
2469         assert(IsSep(NameWithoriginalSlashes[Path.size()-1]));
2470         do
2471           Path.push_back(NameWithoriginalSlashes[Path.size()-1]);
2472         while (Path.size() <= NameWithoriginalSlashes.size() &&
2473                IsSep(NameWithoriginalSlashes[Path.size()-1]));
2474       }
2475 
2476 #if defined(_WIN32)
2477       // Restore UNC prefix if it was there.
2478       if (NameWasUNC)
2479         Path = (Path.substr(0, 1) + "\\\\?\\" + Path.substr(1)).str();
2480 #endif
2481 
2482       // For user files and known standard headers, issue a diagnostic.
2483       // For other system headers, don't. They can be controlled separately.
2484       auto DiagId =
2485           (FileCharacter == SrcMgr::C_User || warnByDefaultOnWrongCase(Name))
2486               ? diag::pp_nonportable_path
2487               : diag::pp_nonportable_system_path;
2488       Diag(FilenameTok, DiagId) << Path <<
2489         FixItHint::CreateReplacement(FilenameRange, Path);
2490     }
2491   }
2492 
2493   switch (Action) {
2494   case Skip:
2495     // If we don't need to enter the file, stop now.
2496     if (SM)
2497       return {ImportAction::SkippedModuleImport, SM};
2498     return {ImportAction::None};
2499 
2500   case IncludeLimitReached:
2501     // If we reached our include limit and don't want to enter any more files,
2502     // don't go any further.
2503     return {ImportAction::None};
2504 
2505   case Import: {
2506     // If this is a module import, make it visible if needed.
2507     assert(SM && "no module to import");
2508 
2509     makeModuleVisible(SM, EndLoc);
2510 
2511     if (IncludeTok.getIdentifierInfo()->getPPKeywordID() ==
2512         tok::pp___include_macros)
2513       return {ImportAction::None};
2514 
2515     return {ImportAction::ModuleImport, SM};
2516   }
2517 
2518   case Enter:
2519     break;
2520   }
2521 
2522   // Check that we don't have infinite #include recursion.
2523   if (IncludeMacroStack.size() == MaxAllowedIncludeStackDepth-1) {
2524     Diag(FilenameTok, diag::err_pp_include_too_deep);
2525     HasReachedMaxIncludeDepth = true;
2526     return {ImportAction::None};
2527   }
2528 
2529   // Look up the file, create a File ID for it.
2530   SourceLocation IncludePos = FilenameTok.getLocation();
2531   // If the filename string was the result of macro expansions, set the include
2532   // position on the file where it will be included and after the expansions.
2533   if (IncludePos.isMacroID())
2534     IncludePos = SourceMgr.getExpansionRange(IncludePos).getEnd();
2535   FileID FID = SourceMgr.createFileID(*File, IncludePos, FileCharacter);
2536   if (!FID.isValid()) {
2537     TheModuleLoader.HadFatalFailure = true;
2538     return ImportAction::Failure;
2539   }
2540 
2541   // If all is good, enter the new file!
2542   if (EnterSourceFile(FID, CurDir, FilenameTok.getLocation(),
2543                       IsFirstIncludeOfFile))
2544     return {ImportAction::None};
2545 
2546   // Determine if we're switching to building a new submodule, and which one.
2547   // This does not apply for C++20 modules header units.
2548   if (SM && !SM->isHeaderUnit()) {
2549     if (SM->getTopLevelModule()->ShadowingModule) {
2550       // We are building a submodule that belongs to a shadowed module. This
2551       // means we find header files in the shadowed module.
2552       Diag(SM->DefinitionLoc, diag::err_module_build_shadowed_submodule)
2553           << SM->getFullModuleName();
2554       Diag(SM->getTopLevelModule()->ShadowingModule->DefinitionLoc,
2555            diag::note_previous_definition);
2556       return {ImportAction::None};
2557     }
2558     // When building a pch, -fmodule-name tells the compiler to textually
2559     // include headers in the specified module. We are not building the
2560     // specified module.
2561     //
2562     // FIXME: This is the wrong way to handle this. We should produce a PCH
2563     // that behaves the same as the header would behave in a compilation using
2564     // that PCH, which means we should enter the submodule. We need to teach
2565     // the AST serialization layer to deal with the resulting AST.
2566     if (getLangOpts().CompilingPCH && SM->isForBuilding(getLangOpts()))
2567       return {ImportAction::None};
2568 
2569     assert(!CurLexerSubmodule && "should not have marked this as a module yet");
2570     CurLexerSubmodule = SM;
2571 
2572     // Let the macro handling code know that any future macros are within
2573     // the new submodule.
2574     EnterSubmodule(SM, EndLoc, /*ForPragma*/ false);
2575 
2576     // Let the parser know that any future declarations are within the new
2577     // submodule.
2578     // FIXME: There's no point doing this if we're handling a #__include_macros
2579     // directive.
2580     return {ImportAction::ModuleBegin, SM};
2581   }
2582 
2583   assert(!IsImportDecl && "failed to diagnose missing module for import decl");
2584   return {ImportAction::None};
2585 }
2586 
2587 /// HandleIncludeNextDirective - Implements \#include_next.
2588 ///
2589 void Preprocessor::HandleIncludeNextDirective(SourceLocation HashLoc,
2590                                               Token &IncludeNextTok) {
2591   Diag(IncludeNextTok, diag::ext_pp_include_next_directive);
2592 
2593   ConstSearchDirIterator Lookup = nullptr;
2594   const FileEntry *LookupFromFile;
2595   std::tie(Lookup, LookupFromFile) = getIncludeNextStart(IncludeNextTok);
2596 
2597   return HandleIncludeDirective(HashLoc, IncludeNextTok, Lookup,
2598                                 LookupFromFile);
2599 }
2600 
2601 /// HandleMicrosoftImportDirective - Implements \#import for Microsoft Mode
2602 void Preprocessor::HandleMicrosoftImportDirective(Token &Tok) {
2603   // The Microsoft #import directive takes a type library and generates header
2604   // files from it, and includes those.  This is beyond the scope of what clang
2605   // does, so we ignore it and error out.  However, #import can optionally have
2606   // trailing attributes that span multiple lines.  We're going to eat those
2607   // so we can continue processing from there.
2608   Diag(Tok, diag::err_pp_import_directive_ms );
2609 
2610   // Read tokens until we get to the end of the directive.  Note that the
2611   // directive can be split over multiple lines using the backslash character.
2612   DiscardUntilEndOfDirective();
2613 }
2614 
2615 /// HandleImportDirective - Implements \#import.
2616 ///
2617 void Preprocessor::HandleImportDirective(SourceLocation HashLoc,
2618                                          Token &ImportTok) {
2619   if (!LangOpts.ObjC) {  // #import is standard for ObjC.
2620     if (LangOpts.MSVCCompat)
2621       return HandleMicrosoftImportDirective(ImportTok);
2622     Diag(ImportTok, diag::ext_pp_import_directive);
2623   }
2624   return HandleIncludeDirective(HashLoc, ImportTok);
2625 }
2626 
2627 /// HandleIncludeMacrosDirective - The -imacros command line option turns into a
2628 /// pseudo directive in the predefines buffer.  This handles it by sucking all
2629 /// tokens through the preprocessor and discarding them (only keeping the side
2630 /// effects on the preprocessor).
2631 void Preprocessor::HandleIncludeMacrosDirective(SourceLocation HashLoc,
2632                                                 Token &IncludeMacrosTok) {
2633   // This directive should only occur in the predefines buffer.  If not, emit an
2634   // error and reject it.
2635   SourceLocation Loc = IncludeMacrosTok.getLocation();
2636   if (SourceMgr.getBufferName(Loc) != "<built-in>") {
2637     Diag(IncludeMacrosTok.getLocation(),
2638          diag::pp_include_macros_out_of_predefines);
2639     DiscardUntilEndOfDirective();
2640     return;
2641   }
2642 
2643   // Treat this as a normal #include for checking purposes.  If this is
2644   // successful, it will push a new lexer onto the include stack.
2645   HandleIncludeDirective(HashLoc, IncludeMacrosTok);
2646 
2647   Token TmpTok;
2648   do {
2649     Lex(TmpTok);
2650     assert(TmpTok.isNot(tok::eof) && "Didn't find end of -imacros!");
2651   } while (TmpTok.isNot(tok::hashhash));
2652 }
2653 
2654 //===----------------------------------------------------------------------===//
2655 // Preprocessor Macro Directive Handling.
2656 //===----------------------------------------------------------------------===//
2657 
2658 /// ReadMacroParameterList - The ( starting a parameter list of a macro
2659 /// definition has just been read.  Lex the rest of the parameters and the
2660 /// closing ), updating MI with what we learn.  Return true if an error occurs
2661 /// parsing the param list.
2662 bool Preprocessor::ReadMacroParameterList(MacroInfo *MI, Token &Tok) {
2663   SmallVector<IdentifierInfo*, 32> Parameters;
2664 
2665   while (true) {
2666     LexUnexpandedNonComment(Tok);
2667     switch (Tok.getKind()) {
2668     case tok::r_paren:
2669       // Found the end of the parameter list.
2670       if (Parameters.empty())  // #define FOO()
2671         return false;
2672       // Otherwise we have #define FOO(A,)
2673       Diag(Tok, diag::err_pp_expected_ident_in_arg_list);
2674       return true;
2675     case tok::ellipsis:  // #define X(... -> C99 varargs
2676       if (!LangOpts.C99)
2677         Diag(Tok, LangOpts.CPlusPlus11 ?
2678              diag::warn_cxx98_compat_variadic_macro :
2679              diag::ext_variadic_macro);
2680 
2681       // OpenCL v1.2 s6.9.e: variadic macros are not supported.
2682       if (LangOpts.OpenCL && !LangOpts.OpenCLCPlusPlus) {
2683         Diag(Tok, diag::ext_pp_opencl_variadic_macros);
2684       }
2685 
2686       // Lex the token after the identifier.
2687       LexUnexpandedNonComment(Tok);
2688       if (Tok.isNot(tok::r_paren)) {
2689         Diag(Tok, diag::err_pp_missing_rparen_in_macro_def);
2690         return true;
2691       }
2692       // Add the __VA_ARGS__ identifier as a parameter.
2693       Parameters.push_back(Ident__VA_ARGS__);
2694       MI->setIsC99Varargs();
2695       MI->setParameterList(Parameters, BP);
2696       return false;
2697     case tok::eod:  // #define X(
2698       Diag(Tok, diag::err_pp_missing_rparen_in_macro_def);
2699       return true;
2700     default:
2701       // Handle keywords and identifiers here to accept things like
2702       // #define Foo(for) for.
2703       IdentifierInfo *II = Tok.getIdentifierInfo();
2704       if (!II) {
2705         // #define X(1
2706         Diag(Tok, diag::err_pp_invalid_tok_in_arg_list);
2707         return true;
2708       }
2709 
2710       // If this is already used as a parameter, it is used multiple times (e.g.
2711       // #define X(A,A.
2712       if (llvm::is_contained(Parameters, II)) { // C99 6.10.3p6
2713         Diag(Tok, diag::err_pp_duplicate_name_in_arg_list) << II;
2714         return true;
2715       }
2716 
2717       // Add the parameter to the macro info.
2718       Parameters.push_back(II);
2719 
2720       // Lex the token after the identifier.
2721       LexUnexpandedNonComment(Tok);
2722 
2723       switch (Tok.getKind()) {
2724       default:          // #define X(A B
2725         Diag(Tok, diag::err_pp_expected_comma_in_arg_list);
2726         return true;
2727       case tok::r_paren: // #define X(A)
2728         MI->setParameterList(Parameters, BP);
2729         return false;
2730       case tok::comma:  // #define X(A,
2731         break;
2732       case tok::ellipsis:  // #define X(A... -> GCC extension
2733         // Diagnose extension.
2734         Diag(Tok, diag::ext_named_variadic_macro);
2735 
2736         // Lex the token after the identifier.
2737         LexUnexpandedNonComment(Tok);
2738         if (Tok.isNot(tok::r_paren)) {
2739           Diag(Tok, diag::err_pp_missing_rparen_in_macro_def);
2740           return true;
2741         }
2742 
2743         MI->setIsGNUVarargs();
2744         MI->setParameterList(Parameters, BP);
2745         return false;
2746       }
2747     }
2748   }
2749 }
2750 
2751 static bool isConfigurationPattern(Token &MacroName, MacroInfo *MI,
2752                                    const LangOptions &LOptions) {
2753   if (MI->getNumTokens() == 1) {
2754     const Token &Value = MI->getReplacementToken(0);
2755 
2756     // Macro that is identity, like '#define inline inline' is a valid pattern.
2757     if (MacroName.getKind() == Value.getKind())
2758       return true;
2759 
2760     // Macro that maps a keyword to the same keyword decorated with leading/
2761     // trailing underscores is a valid pattern:
2762     //    #define inline __inline
2763     //    #define inline __inline__
2764     //    #define inline _inline (in MS compatibility mode)
2765     StringRef MacroText = MacroName.getIdentifierInfo()->getName();
2766     if (IdentifierInfo *II = Value.getIdentifierInfo()) {
2767       if (!II->isKeyword(LOptions))
2768         return false;
2769       StringRef ValueText = II->getName();
2770       StringRef TrimmedValue = ValueText;
2771       if (!ValueText.startswith("__")) {
2772         if (ValueText.startswith("_"))
2773           TrimmedValue = TrimmedValue.drop_front(1);
2774         else
2775           return false;
2776       } else {
2777         TrimmedValue = TrimmedValue.drop_front(2);
2778         if (TrimmedValue.endswith("__"))
2779           TrimmedValue = TrimmedValue.drop_back(2);
2780       }
2781       return TrimmedValue.equals(MacroText);
2782     } else {
2783       return false;
2784     }
2785   }
2786 
2787   // #define inline
2788   return MacroName.isOneOf(tok::kw_extern, tok::kw_inline, tok::kw_static,
2789                            tok::kw_const) &&
2790          MI->getNumTokens() == 0;
2791 }
2792 
2793 // ReadOptionalMacroParameterListAndBody - This consumes all (i.e. the
2794 // entire line) of the macro's tokens and adds them to MacroInfo, and while
2795 // doing so performs certain validity checks including (but not limited to):
2796 //   - # (stringization) is followed by a macro parameter
2797 //
2798 //  Returns a nullptr if an invalid sequence of tokens is encountered or returns
2799 //  a pointer to a MacroInfo object.
2800 
2801 MacroInfo *Preprocessor::ReadOptionalMacroParameterListAndBody(
2802     const Token &MacroNameTok, const bool ImmediatelyAfterHeaderGuard) {
2803 
2804   Token LastTok = MacroNameTok;
2805   // Create the new macro.
2806   MacroInfo *const MI = AllocateMacroInfo(MacroNameTok.getLocation());
2807 
2808   Token Tok;
2809   LexUnexpandedToken(Tok);
2810 
2811   // Ensure we consume the rest of the macro body if errors occur.
2812   auto _ = llvm::make_scope_exit([&]() {
2813     // The flag indicates if we are still waiting for 'eod'.
2814     if (CurLexer->ParsingPreprocessorDirective)
2815       DiscardUntilEndOfDirective();
2816   });
2817 
2818   // Used to un-poison and then re-poison identifiers of the __VA_ARGS__ ilk
2819   // within their appropriate context.
2820   VariadicMacroScopeGuard VariadicMacroScopeGuard(*this);
2821 
2822   // If this is a function-like macro definition, parse the argument list,
2823   // marking each of the identifiers as being used as macro arguments.  Also,
2824   // check other constraints on the first token of the macro body.
2825   if (Tok.is(tok::eod)) {
2826     if (ImmediatelyAfterHeaderGuard) {
2827       // Save this macro information since it may part of a header guard.
2828       CurPPLexer->MIOpt.SetDefinedMacro(MacroNameTok.getIdentifierInfo(),
2829                                         MacroNameTok.getLocation());
2830     }
2831     // If there is no body to this macro, we have no special handling here.
2832   } else if (Tok.hasLeadingSpace()) {
2833     // This is a normal token with leading space.  Clear the leading space
2834     // marker on the first token to get proper expansion.
2835     Tok.clearFlag(Token::LeadingSpace);
2836   } else if (Tok.is(tok::l_paren)) {
2837     // This is a function-like macro definition.  Read the argument list.
2838     MI->setIsFunctionLike();
2839     if (ReadMacroParameterList(MI, LastTok))
2840       return nullptr;
2841 
2842     // If this is a definition of an ISO C/C++ variadic function-like macro (not
2843     // using the GNU named varargs extension) inform our variadic scope guard
2844     // which un-poisons and re-poisons certain identifiers (e.g. __VA_ARGS__)
2845     // allowed only within the definition of a variadic macro.
2846 
2847     if (MI->isC99Varargs()) {
2848       VariadicMacroScopeGuard.enterScope();
2849     }
2850 
2851     // Read the first token after the arg list for down below.
2852     LexUnexpandedToken(Tok);
2853   } else if (LangOpts.C99 || LangOpts.CPlusPlus11) {
2854     // C99 requires whitespace between the macro definition and the body.  Emit
2855     // a diagnostic for something like "#define X+".
2856     Diag(Tok, diag::ext_c99_whitespace_required_after_macro_name);
2857   } else {
2858     // C90 6.8 TC1 says: "In the definition of an object-like macro, if the
2859     // first character of a replacement list is not a character required by
2860     // subclause 5.2.1, then there shall be white-space separation between the
2861     // identifier and the replacement list.".  5.2.1 lists this set:
2862     //   "A-Za-z0-9!"#%&'()*+,_./:;<=>?[\]^_{|}~" as well as whitespace, which
2863     // is irrelevant here.
2864     bool isInvalid = false;
2865     if (Tok.is(tok::at)) // @ is not in the list above.
2866       isInvalid = true;
2867     else if (Tok.is(tok::unknown)) {
2868       // If we have an unknown token, it is something strange like "`".  Since
2869       // all of valid characters would have lexed into a single character
2870       // token of some sort, we know this is not a valid case.
2871       isInvalid = true;
2872     }
2873     if (isInvalid)
2874       Diag(Tok, diag::ext_missing_whitespace_after_macro_name);
2875     else
2876       Diag(Tok, diag::warn_missing_whitespace_after_macro_name);
2877   }
2878 
2879   if (!Tok.is(tok::eod))
2880     LastTok = Tok;
2881 
2882   SmallVector<Token, 16> Tokens;
2883 
2884   // Read the rest of the macro body.
2885   if (MI->isObjectLike()) {
2886     // Object-like macros are very simple, just read their body.
2887     while (Tok.isNot(tok::eod)) {
2888       LastTok = Tok;
2889       Tokens.push_back(Tok);
2890       // Get the next token of the macro.
2891       LexUnexpandedToken(Tok);
2892     }
2893   } else {
2894     // Otherwise, read the body of a function-like macro.  While we are at it,
2895     // check C99 6.10.3.2p1: ensure that # operators are followed by macro
2896     // parameters in function-like macro expansions.
2897 
2898     VAOptDefinitionContext VAOCtx(*this);
2899 
2900     while (Tok.isNot(tok::eod)) {
2901       LastTok = Tok;
2902 
2903       if (!Tok.isOneOf(tok::hash, tok::hashat, tok::hashhash)) {
2904         Tokens.push_back(Tok);
2905 
2906         if (VAOCtx.isVAOptToken(Tok)) {
2907           // If we're already within a VAOPT, emit an error.
2908           if (VAOCtx.isInVAOpt()) {
2909             Diag(Tok, diag::err_pp_vaopt_nested_use);
2910             return nullptr;
2911           }
2912           // Ensure VAOPT is followed by a '(' .
2913           LexUnexpandedToken(Tok);
2914           if (Tok.isNot(tok::l_paren)) {
2915             Diag(Tok, diag::err_pp_missing_lparen_in_vaopt_use);
2916             return nullptr;
2917           }
2918           Tokens.push_back(Tok);
2919           VAOCtx.sawVAOptFollowedByOpeningParens(Tok.getLocation());
2920           LexUnexpandedToken(Tok);
2921           if (Tok.is(tok::hashhash)) {
2922             Diag(Tok, diag::err_vaopt_paste_at_start);
2923             return nullptr;
2924           }
2925           continue;
2926         } else if (VAOCtx.isInVAOpt()) {
2927           if (Tok.is(tok::r_paren)) {
2928             if (VAOCtx.sawClosingParen()) {
2929               assert(Tokens.size() >= 3 &&
2930                      "Must have seen at least __VA_OPT__( "
2931                      "and a subsequent tok::r_paren");
2932               if (Tokens[Tokens.size() - 2].is(tok::hashhash)) {
2933                 Diag(Tok, diag::err_vaopt_paste_at_end);
2934                 return nullptr;
2935               }
2936             }
2937           } else if (Tok.is(tok::l_paren)) {
2938             VAOCtx.sawOpeningParen(Tok.getLocation());
2939           }
2940         }
2941         // Get the next token of the macro.
2942         LexUnexpandedToken(Tok);
2943         continue;
2944       }
2945 
2946       // If we're in -traditional mode, then we should ignore stringification
2947       // and token pasting. Mark the tokens as unknown so as not to confuse
2948       // things.
2949       if (getLangOpts().TraditionalCPP) {
2950         Tok.setKind(tok::unknown);
2951         Tokens.push_back(Tok);
2952 
2953         // Get the next token of the macro.
2954         LexUnexpandedToken(Tok);
2955         continue;
2956       }
2957 
2958       if (Tok.is(tok::hashhash)) {
2959         // If we see token pasting, check if it looks like the gcc comma
2960         // pasting extension.  We'll use this information to suppress
2961         // diagnostics later on.
2962 
2963         // Get the next token of the macro.
2964         LexUnexpandedToken(Tok);
2965 
2966         if (Tok.is(tok::eod)) {
2967           Tokens.push_back(LastTok);
2968           break;
2969         }
2970 
2971         if (!Tokens.empty() && Tok.getIdentifierInfo() == Ident__VA_ARGS__ &&
2972             Tokens[Tokens.size() - 1].is(tok::comma))
2973           MI->setHasCommaPasting();
2974 
2975         // Things look ok, add the '##' token to the macro.
2976         Tokens.push_back(LastTok);
2977         continue;
2978       }
2979 
2980       // Our Token is a stringization operator.
2981       // Get the next token of the macro.
2982       LexUnexpandedToken(Tok);
2983 
2984       // Check for a valid macro arg identifier or __VA_OPT__.
2985       if (!VAOCtx.isVAOptToken(Tok) &&
2986           (Tok.getIdentifierInfo() == nullptr ||
2987            MI->getParameterNum(Tok.getIdentifierInfo()) == -1)) {
2988 
2989         // If this is assembler-with-cpp mode, we accept random gibberish after
2990         // the '#' because '#' is often a comment character.  However, change
2991         // the kind of the token to tok::unknown so that the preprocessor isn't
2992         // confused.
2993         if (getLangOpts().AsmPreprocessor && Tok.isNot(tok::eod)) {
2994           LastTok.setKind(tok::unknown);
2995           Tokens.push_back(LastTok);
2996           continue;
2997         } else {
2998           Diag(Tok, diag::err_pp_stringize_not_parameter)
2999             << LastTok.is(tok::hashat);
3000           return nullptr;
3001         }
3002       }
3003 
3004       // Things look ok, add the '#' and param name tokens to the macro.
3005       Tokens.push_back(LastTok);
3006 
3007       // If the token following '#' is VAOPT, let the next iteration handle it
3008       // and check it for correctness, otherwise add the token and prime the
3009       // loop with the next one.
3010       if (!VAOCtx.isVAOptToken(Tok)) {
3011         Tokens.push_back(Tok);
3012         LastTok = Tok;
3013 
3014         // Get the next token of the macro.
3015         LexUnexpandedToken(Tok);
3016       }
3017     }
3018     if (VAOCtx.isInVAOpt()) {
3019       assert(Tok.is(tok::eod) && "Must be at End Of preprocessing Directive");
3020       Diag(Tok, diag::err_pp_expected_after)
3021         << LastTok.getKind() << tok::r_paren;
3022       Diag(VAOCtx.getUnmatchedOpeningParenLoc(), diag::note_matching) << tok::l_paren;
3023       return nullptr;
3024     }
3025   }
3026   MI->setDefinitionEndLoc(LastTok.getLocation());
3027 
3028   MI->setTokens(Tokens, BP);
3029   return MI;
3030 }
3031 
3032 static bool isObjCProtectedMacro(const IdentifierInfo *II) {
3033   return II->isStr("__strong") || II->isStr("__weak") ||
3034          II->isStr("__unsafe_unretained") || II->isStr("__autoreleasing");
3035 }
3036 
3037 /// HandleDefineDirective - Implements \#define.  This consumes the entire macro
3038 /// line then lets the caller lex the next real token.
3039 void Preprocessor::HandleDefineDirective(
3040     Token &DefineTok, const bool ImmediatelyAfterHeaderGuard) {
3041   ++NumDefined;
3042 
3043   Token MacroNameTok;
3044   bool MacroShadowsKeyword;
3045   ReadMacroName(MacroNameTok, MU_Define, &MacroShadowsKeyword);
3046 
3047   // Error reading macro name?  If so, diagnostic already issued.
3048   if (MacroNameTok.is(tok::eod))
3049     return;
3050 
3051   IdentifierInfo *II = MacroNameTok.getIdentifierInfo();
3052   // Issue a final pragma warning if we're defining a macro that was has been
3053   // undefined and is being redefined.
3054   if (!II->hasMacroDefinition() && II->hadMacroDefinition() && II->isFinal())
3055     emitFinalMacroWarning(MacroNameTok, /*IsUndef=*/false);
3056 
3057   // If we are supposed to keep comments in #defines, reenable comment saving
3058   // mode.
3059   if (CurLexer) CurLexer->SetCommentRetentionState(KeepMacroComments);
3060 
3061   MacroInfo *const MI = ReadOptionalMacroParameterListAndBody(
3062       MacroNameTok, ImmediatelyAfterHeaderGuard);
3063 
3064   if (!MI) return;
3065 
3066   if (MacroShadowsKeyword &&
3067       !isConfigurationPattern(MacroNameTok, MI, getLangOpts())) {
3068     Diag(MacroNameTok, diag::warn_pp_macro_hides_keyword);
3069   }
3070   // Check that there is no paste (##) operator at the beginning or end of the
3071   // replacement list.
3072   unsigned NumTokens = MI->getNumTokens();
3073   if (NumTokens != 0) {
3074     if (MI->getReplacementToken(0).is(tok::hashhash)) {
3075       Diag(MI->getReplacementToken(0), diag::err_paste_at_start);
3076       return;
3077     }
3078     if (MI->getReplacementToken(NumTokens-1).is(tok::hashhash)) {
3079       Diag(MI->getReplacementToken(NumTokens-1), diag::err_paste_at_end);
3080       return;
3081     }
3082   }
3083 
3084   // When skipping just warn about macros that do not match.
3085   if (SkippingUntilPCHThroughHeader) {
3086     const MacroInfo *OtherMI = getMacroInfo(MacroNameTok.getIdentifierInfo());
3087     if (!OtherMI || !MI->isIdenticalTo(*OtherMI, *this,
3088                              /*Syntactic=*/LangOpts.MicrosoftExt))
3089       Diag(MI->getDefinitionLoc(), diag::warn_pp_macro_def_mismatch_with_pch)
3090           << MacroNameTok.getIdentifierInfo();
3091     // Issue the diagnostic but allow the change if msvc extensions are enabled
3092     if (!LangOpts.MicrosoftExt)
3093       return;
3094   }
3095 
3096   // Finally, if this identifier already had a macro defined for it, verify that
3097   // the macro bodies are identical, and issue diagnostics if they are not.
3098   if (const MacroInfo *OtherMI=getMacroInfo(MacroNameTok.getIdentifierInfo())) {
3099     // Final macros are hard-mode: they always warn. Even if the bodies are
3100     // identical. Even if they are in system headers. Even if they are things we
3101     // would silently allow in the past.
3102     if (MacroNameTok.getIdentifierInfo()->isFinal())
3103       emitFinalMacroWarning(MacroNameTok, /*IsUndef=*/false);
3104 
3105     // In Objective-C, ignore attempts to directly redefine the builtin
3106     // definitions of the ownership qualifiers.  It's still possible to
3107     // #undef them.
3108     if (getLangOpts().ObjC &&
3109         SourceMgr.getFileID(OtherMI->getDefinitionLoc()) ==
3110             getPredefinesFileID() &&
3111         isObjCProtectedMacro(MacroNameTok.getIdentifierInfo())) {
3112       // Warn if it changes the tokens.
3113       if ((!getDiagnostics().getSuppressSystemWarnings() ||
3114            !SourceMgr.isInSystemHeader(DefineTok.getLocation())) &&
3115           !MI->isIdenticalTo(*OtherMI, *this,
3116                              /*Syntactic=*/LangOpts.MicrosoftExt)) {
3117         Diag(MI->getDefinitionLoc(), diag::warn_pp_objc_macro_redef_ignored);
3118       }
3119       assert(!OtherMI->isWarnIfUnused());
3120       return;
3121     }
3122 
3123     // It is very common for system headers to have tons of macro redefinitions
3124     // and for warnings to be disabled in system headers.  If this is the case,
3125     // then don't bother calling MacroInfo::isIdenticalTo.
3126     if (!getDiagnostics().getSuppressSystemWarnings() ||
3127         !SourceMgr.isInSystemHeader(DefineTok.getLocation())) {
3128 
3129       if (!OtherMI->isUsed() && OtherMI->isWarnIfUnused())
3130         Diag(OtherMI->getDefinitionLoc(), diag::pp_macro_not_used);
3131 
3132       // Warn if defining "__LINE__" and other builtins, per C99 6.10.8/4 and
3133       // C++ [cpp.predefined]p4, but allow it as an extension.
3134       if (isLanguageDefinedBuiltin(SourceMgr, OtherMI, II->getName()))
3135         Diag(MacroNameTok, diag::ext_pp_redef_builtin_macro);
3136       // Macros must be identical.  This means all tokens and whitespace
3137       // separation must be the same.  C99 6.10.3p2.
3138       else if (!OtherMI->isAllowRedefinitionsWithoutWarning() &&
3139                !MI->isIdenticalTo(*OtherMI, *this, /*Syntactic=*/LangOpts.MicrosoftExt)) {
3140         Diag(MI->getDefinitionLoc(), diag::ext_pp_macro_redef)
3141           << MacroNameTok.getIdentifierInfo();
3142         Diag(OtherMI->getDefinitionLoc(), diag::note_previous_definition);
3143       }
3144     }
3145     if (OtherMI->isWarnIfUnused())
3146       WarnUnusedMacroLocs.erase(OtherMI->getDefinitionLoc());
3147   }
3148 
3149   DefMacroDirective *MD =
3150       appendDefMacroDirective(MacroNameTok.getIdentifierInfo(), MI);
3151 
3152   assert(!MI->isUsed());
3153   // If we need warning for not using the macro, add its location in the
3154   // warn-because-unused-macro set. If it gets used it will be removed from set.
3155   if (getSourceManager().isInMainFile(MI->getDefinitionLoc()) &&
3156       !Diags->isIgnored(diag::pp_macro_not_used, MI->getDefinitionLoc()) &&
3157       !MacroExpansionInDirectivesOverride &&
3158       getSourceManager().getFileID(MI->getDefinitionLoc()) !=
3159           getPredefinesFileID()) {
3160     MI->setIsWarnIfUnused(true);
3161     WarnUnusedMacroLocs.insert(MI->getDefinitionLoc());
3162   }
3163 
3164   // If the callbacks want to know, tell them about the macro definition.
3165   if (Callbacks)
3166     Callbacks->MacroDefined(MacroNameTok, MD);
3167 
3168   // If we're in MS compatibility mode and the macro being defined is the
3169   // assert macro, implicitly add a macro definition for static_assert to work
3170   // around their broken assert.h header file in C. Only do so if there isn't
3171   // already a static_assert macro defined.
3172   if (!getLangOpts().CPlusPlus && getLangOpts().MSVCCompat &&
3173       MacroNameTok.getIdentifierInfo()->isStr("assert") &&
3174       !isMacroDefined("static_assert")) {
3175     MacroInfo *MI = AllocateMacroInfo(SourceLocation());
3176 
3177     Token Tok;
3178     Tok.startToken();
3179     Tok.setKind(tok::kw__Static_assert);
3180     Tok.setIdentifierInfo(getIdentifierInfo("_Static_assert"));
3181     MI->setTokens({Tok}, BP);
3182     (void)appendDefMacroDirective(getIdentifierInfo("static_assert"), MI);
3183   }
3184 }
3185 
3186 /// HandleUndefDirective - Implements \#undef.
3187 ///
3188 void Preprocessor::HandleUndefDirective() {
3189   ++NumUndefined;
3190 
3191   Token MacroNameTok;
3192   ReadMacroName(MacroNameTok, MU_Undef);
3193 
3194   // Error reading macro name?  If so, diagnostic already issued.
3195   if (MacroNameTok.is(tok::eod))
3196     return;
3197 
3198   // Check to see if this is the last token on the #undef line.
3199   CheckEndOfDirective("undef");
3200 
3201   // Okay, we have a valid identifier to undef.
3202   auto *II = MacroNameTok.getIdentifierInfo();
3203   auto MD = getMacroDefinition(II);
3204   UndefMacroDirective *Undef = nullptr;
3205 
3206   if (II->isFinal())
3207     emitFinalMacroWarning(MacroNameTok, /*IsUndef=*/true);
3208 
3209   // If the macro is not defined, this is a noop undef.
3210   if (const MacroInfo *MI = MD.getMacroInfo()) {
3211     if (!MI->isUsed() && MI->isWarnIfUnused())
3212       Diag(MI->getDefinitionLoc(), diag::pp_macro_not_used);
3213 
3214     // Warn if undefining "__LINE__" and other builtins, per C99 6.10.8/4 and
3215     // C++ [cpp.predefined]p4, but allow it as an extension.
3216     if (isLanguageDefinedBuiltin(SourceMgr, MI, II->getName()))
3217       Diag(MacroNameTok, diag::ext_pp_undef_builtin_macro);
3218 
3219     if (MI->isWarnIfUnused())
3220       WarnUnusedMacroLocs.erase(MI->getDefinitionLoc());
3221 
3222     Undef = AllocateUndefMacroDirective(MacroNameTok.getLocation());
3223   }
3224 
3225   // If the callbacks want to know, tell them about the macro #undef.
3226   // Note: no matter if the macro was defined or not.
3227   if (Callbacks)
3228     Callbacks->MacroUndefined(MacroNameTok, MD, Undef);
3229 
3230   if (Undef)
3231     appendMacroDirective(II, Undef);
3232 }
3233 
3234 //===----------------------------------------------------------------------===//
3235 // Preprocessor Conditional Directive Handling.
3236 //===----------------------------------------------------------------------===//
3237 
3238 /// HandleIfdefDirective - Implements the \#ifdef/\#ifndef directive.  isIfndef
3239 /// is true when this is a \#ifndef directive.  ReadAnyTokensBeforeDirective is
3240 /// true if any tokens have been returned or pp-directives activated before this
3241 /// \#ifndef has been lexed.
3242 ///
3243 void Preprocessor::HandleIfdefDirective(Token &Result,
3244                                         const Token &HashToken,
3245                                         bool isIfndef,
3246                                         bool ReadAnyTokensBeforeDirective) {
3247   ++NumIf;
3248   Token DirectiveTok = Result;
3249 
3250   Token MacroNameTok;
3251   ReadMacroName(MacroNameTok);
3252 
3253   // Error reading macro name?  If so, diagnostic already issued.
3254   if (MacroNameTok.is(tok::eod)) {
3255     // Skip code until we get to #endif.  This helps with recovery by not
3256     // emitting an error when the #endif is reached.
3257     SkipExcludedConditionalBlock(HashToken.getLocation(),
3258                                  DirectiveTok.getLocation(),
3259                                  /*Foundnonskip*/ false, /*FoundElse*/ false);
3260     return;
3261   }
3262 
3263   emitMacroExpansionWarnings(MacroNameTok);
3264 
3265   // Check to see if this is the last token on the #if[n]def line.
3266   CheckEndOfDirective(isIfndef ? "ifndef" : "ifdef");
3267 
3268   IdentifierInfo *MII = MacroNameTok.getIdentifierInfo();
3269   auto MD = getMacroDefinition(MII);
3270   MacroInfo *MI = MD.getMacroInfo();
3271 
3272   if (CurPPLexer->getConditionalStackDepth() == 0) {
3273     // If the start of a top-level #ifdef and if the macro is not defined,
3274     // inform MIOpt that this might be the start of a proper include guard.
3275     // Otherwise it is some other form of unknown conditional which we can't
3276     // handle.
3277     if (!ReadAnyTokensBeforeDirective && !MI) {
3278       assert(isIfndef && "#ifdef shouldn't reach here");
3279       CurPPLexer->MIOpt.EnterTopLevelIfndef(MII, MacroNameTok.getLocation());
3280     } else
3281       CurPPLexer->MIOpt.EnterTopLevelConditional();
3282   }
3283 
3284   // If there is a macro, process it.
3285   if (MI)  // Mark it used.
3286     markMacroAsUsed(MI);
3287 
3288   if (Callbacks) {
3289     if (isIfndef)
3290       Callbacks->Ifndef(DirectiveTok.getLocation(), MacroNameTok, MD);
3291     else
3292       Callbacks->Ifdef(DirectiveTok.getLocation(), MacroNameTok, MD);
3293   }
3294 
3295   bool RetainExcludedCB = PPOpts->RetainExcludedConditionalBlocks &&
3296     getSourceManager().isInMainFile(DirectiveTok.getLocation());
3297 
3298   // Should we include the stuff contained by this directive?
3299   if (PPOpts->SingleFileParseMode && !MI) {
3300     // In 'single-file-parse mode' undefined identifiers trigger parsing of all
3301     // the directive blocks.
3302     CurPPLexer->pushConditionalLevel(DirectiveTok.getLocation(),
3303                                      /*wasskip*/false, /*foundnonskip*/false,
3304                                      /*foundelse*/false);
3305   } else if (!MI == isIfndef || RetainExcludedCB) {
3306     // Yes, remember that we are inside a conditional, then lex the next token.
3307     CurPPLexer->pushConditionalLevel(DirectiveTok.getLocation(),
3308                                      /*wasskip*/false, /*foundnonskip*/true,
3309                                      /*foundelse*/false);
3310   } else {
3311     // No, skip the contents of this block.
3312     SkipExcludedConditionalBlock(HashToken.getLocation(),
3313                                  DirectiveTok.getLocation(),
3314                                  /*Foundnonskip*/ false,
3315                                  /*FoundElse*/ false);
3316   }
3317 }
3318 
3319 /// HandleIfDirective - Implements the \#if directive.
3320 ///
3321 void Preprocessor::HandleIfDirective(Token &IfToken,
3322                                      const Token &HashToken,
3323                                      bool ReadAnyTokensBeforeDirective) {
3324   ++NumIf;
3325 
3326   // Parse and evaluate the conditional expression.
3327   IdentifierInfo *IfNDefMacro = nullptr;
3328   const DirectiveEvalResult DER = EvaluateDirectiveExpression(IfNDefMacro);
3329   const bool ConditionalTrue = DER.Conditional;
3330   // Lexer might become invalid if we hit code completion point while evaluating
3331   // expression.
3332   if (!CurPPLexer)
3333     return;
3334 
3335   // If this condition is equivalent to #ifndef X, and if this is the first
3336   // directive seen, handle it for the multiple-include optimization.
3337   if (CurPPLexer->getConditionalStackDepth() == 0) {
3338     if (!ReadAnyTokensBeforeDirective && IfNDefMacro && ConditionalTrue)
3339       // FIXME: Pass in the location of the macro name, not the 'if' token.
3340       CurPPLexer->MIOpt.EnterTopLevelIfndef(IfNDefMacro, IfToken.getLocation());
3341     else
3342       CurPPLexer->MIOpt.EnterTopLevelConditional();
3343   }
3344 
3345   if (Callbacks)
3346     Callbacks->If(
3347         IfToken.getLocation(), DER.ExprRange,
3348         (ConditionalTrue ? PPCallbacks::CVK_True : PPCallbacks::CVK_False));
3349 
3350   bool RetainExcludedCB = PPOpts->RetainExcludedConditionalBlocks &&
3351     getSourceManager().isInMainFile(IfToken.getLocation());
3352 
3353   // Should we include the stuff contained by this directive?
3354   if (PPOpts->SingleFileParseMode && DER.IncludedUndefinedIds) {
3355     // In 'single-file-parse mode' undefined identifiers trigger parsing of all
3356     // the directive blocks.
3357     CurPPLexer->pushConditionalLevel(IfToken.getLocation(), /*wasskip*/false,
3358                                      /*foundnonskip*/false, /*foundelse*/false);
3359   } else if (ConditionalTrue || RetainExcludedCB) {
3360     // Yes, remember that we are inside a conditional, then lex the next token.
3361     CurPPLexer->pushConditionalLevel(IfToken.getLocation(), /*wasskip*/false,
3362                                    /*foundnonskip*/true, /*foundelse*/false);
3363   } else {
3364     // No, skip the contents of this block.
3365     SkipExcludedConditionalBlock(HashToken.getLocation(), IfToken.getLocation(),
3366                                  /*Foundnonskip*/ false,
3367                                  /*FoundElse*/ false);
3368   }
3369 }
3370 
3371 /// HandleEndifDirective - Implements the \#endif directive.
3372 ///
3373 void Preprocessor::HandleEndifDirective(Token &EndifToken) {
3374   ++NumEndif;
3375 
3376   // Check that this is the whole directive.
3377   CheckEndOfDirective("endif");
3378 
3379   PPConditionalInfo CondInfo;
3380   if (CurPPLexer->popConditionalLevel(CondInfo)) {
3381     // No conditionals on the stack: this is an #endif without an #if.
3382     Diag(EndifToken, diag::err_pp_endif_without_if);
3383     return;
3384   }
3385 
3386   // If this the end of a top-level #endif, inform MIOpt.
3387   if (CurPPLexer->getConditionalStackDepth() == 0)
3388     CurPPLexer->MIOpt.ExitTopLevelConditional();
3389 
3390   assert(!CondInfo.WasSkipping && !CurPPLexer->LexingRawMode &&
3391          "This code should only be reachable in the non-skipping case!");
3392 
3393   if (Callbacks)
3394     Callbacks->Endif(EndifToken.getLocation(), CondInfo.IfLoc);
3395 }
3396 
3397 /// HandleElseDirective - Implements the \#else directive.
3398 ///
3399 void Preprocessor::HandleElseDirective(Token &Result, const Token &HashToken) {
3400   ++NumElse;
3401 
3402   // #else directive in a non-skipping conditional... start skipping.
3403   CheckEndOfDirective("else");
3404 
3405   PPConditionalInfo CI;
3406   if (CurPPLexer->popConditionalLevel(CI)) {
3407     Diag(Result, diag::pp_err_else_without_if);
3408     return;
3409   }
3410 
3411   // If this is a top-level #else, inform the MIOpt.
3412   if (CurPPLexer->getConditionalStackDepth() == 0)
3413     CurPPLexer->MIOpt.EnterTopLevelConditional();
3414 
3415   // If this is a #else with a #else before it, report the error.
3416   if (CI.FoundElse) Diag(Result, diag::pp_err_else_after_else);
3417 
3418   if (Callbacks)
3419     Callbacks->Else(Result.getLocation(), CI.IfLoc);
3420 
3421   bool RetainExcludedCB = PPOpts->RetainExcludedConditionalBlocks &&
3422     getSourceManager().isInMainFile(Result.getLocation());
3423 
3424   if ((PPOpts->SingleFileParseMode && !CI.FoundNonSkip) || RetainExcludedCB) {
3425     // In 'single-file-parse mode' undefined identifiers trigger parsing of all
3426     // the directive blocks.
3427     CurPPLexer->pushConditionalLevel(CI.IfLoc, /*wasskip*/false,
3428                                      /*foundnonskip*/false, /*foundelse*/true);
3429     return;
3430   }
3431 
3432   // Finally, skip the rest of the contents of this block.
3433   SkipExcludedConditionalBlock(HashToken.getLocation(), CI.IfLoc,
3434                                /*Foundnonskip*/ true,
3435                                /*FoundElse*/ true, Result.getLocation());
3436 }
3437 
3438 /// Implements the \#elif, \#elifdef, and \#elifndef directives.
3439 void Preprocessor::HandleElifFamilyDirective(Token &ElifToken,
3440                                              const Token &HashToken,
3441                                              tok::PPKeywordKind Kind) {
3442   PPElifDiag DirKind = Kind == tok::pp_elif      ? PED_Elif
3443                        : Kind == tok::pp_elifdef ? PED_Elifdef
3444                                                  : PED_Elifndef;
3445   ++NumElse;
3446 
3447   // Warn if using `#elifdef` & `#elifndef` in not C2x & C++23 mode.
3448   switch (DirKind) {
3449   case PED_Elifdef:
3450   case PED_Elifndef:
3451     unsigned DiagID;
3452     if (LangOpts.CPlusPlus)
3453       DiagID = LangOpts.CPlusPlus23 ? diag::warn_cxx23_compat_pp_directive
3454                                     : diag::ext_cxx23_pp_directive;
3455     else
3456       DiagID = LangOpts.C2x ? diag::warn_c2x_compat_pp_directive
3457                             : diag::ext_c2x_pp_directive;
3458     Diag(ElifToken, DiagID) << DirKind;
3459     break;
3460   default:
3461     break;
3462   }
3463 
3464   // #elif directive in a non-skipping conditional... start skipping.
3465   // We don't care what the condition is, because we will always skip it (since
3466   // the block immediately before it was included).
3467   SourceRange ConditionRange = DiscardUntilEndOfDirective();
3468 
3469   PPConditionalInfo CI;
3470   if (CurPPLexer->popConditionalLevel(CI)) {
3471     Diag(ElifToken, diag::pp_err_elif_without_if) << DirKind;
3472     return;
3473   }
3474 
3475   // If this is a top-level #elif, inform the MIOpt.
3476   if (CurPPLexer->getConditionalStackDepth() == 0)
3477     CurPPLexer->MIOpt.EnterTopLevelConditional();
3478 
3479   // If this is a #elif with a #else before it, report the error.
3480   if (CI.FoundElse)
3481     Diag(ElifToken, diag::pp_err_elif_after_else) << DirKind;
3482 
3483   if (Callbacks) {
3484     switch (Kind) {
3485     case tok::pp_elif:
3486       Callbacks->Elif(ElifToken.getLocation(), ConditionRange,
3487                       PPCallbacks::CVK_NotEvaluated, CI.IfLoc);
3488       break;
3489     case tok::pp_elifdef:
3490       Callbacks->Elifdef(ElifToken.getLocation(), ConditionRange, CI.IfLoc);
3491       break;
3492     case tok::pp_elifndef:
3493       Callbacks->Elifndef(ElifToken.getLocation(), ConditionRange, CI.IfLoc);
3494       break;
3495     default:
3496       assert(false && "unexpected directive kind");
3497       break;
3498     }
3499   }
3500 
3501   bool RetainExcludedCB = PPOpts->RetainExcludedConditionalBlocks &&
3502     getSourceManager().isInMainFile(ElifToken.getLocation());
3503 
3504   if ((PPOpts->SingleFileParseMode && !CI.FoundNonSkip) || RetainExcludedCB) {
3505     // In 'single-file-parse mode' undefined identifiers trigger parsing of all
3506     // the directive blocks.
3507     CurPPLexer->pushConditionalLevel(ElifToken.getLocation(), /*wasskip*/false,
3508                                      /*foundnonskip*/false, /*foundelse*/false);
3509     return;
3510   }
3511 
3512   // Finally, skip the rest of the contents of this block.
3513   SkipExcludedConditionalBlock(
3514       HashToken.getLocation(), CI.IfLoc, /*Foundnonskip*/ true,
3515       /*FoundElse*/ CI.FoundElse, ElifToken.getLocation());
3516 }
3517